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1 | /************************************************************************** | |
2 | * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * | |
3 | * * | |
4 | * Author: The ALICE Off-line Project. * | |
5 | * Contributors are mentioned in the code where appropriate. * | |
6 | * * | |
7 | * Permission to use, copy, modify and distribute this software and its * | |
8 | * documentation strictly for non-commercial purposes is hereby granted * | |
9 | * without fee, provided that the above copyright notice appears in all * | |
10 | * copies and that both the copyright notice and this permission notice * | |
11 | * appear in the supporting documentation. The authors make no claims * | |
12 | * about the suitability of this software for any purpose. It is * | |
13 | * provided "as is" without express or implied warranty. * | |
14 | **************************************************************************/ | |
15 | ||
16 | /* $Id$ */ | |
17 | ||
18 | //************************************************************************* | |
19 | // SSD geometry, based on ROOT geometrical modeler | |
20 | // | |
21 | // Enrico Cattaruzza ecattar@ts.infn.it | |
22 | //************************************************************************* | |
23 | #include "TMath.h" | |
24 | #include "TGeoVolume.h" | |
25 | #include "TGeoMatrix.h" | |
26 | #include <TGeoManager.h> | |
27 | #include "TVector3.h" | |
28 | #include "TGeoArb8.h" | |
29 | #include "TList.h" | |
30 | #include "TGeoMatrix.h" | |
31 | #include "TGeoCompositeShape.h" | |
32 | #include "TGeoBoolNode.h" | |
33 | #include "TGeoTube.h" | |
34 | #include "TGeoBBox.h" | |
35 | #include "TGeoXtru.h" | |
36 | #include "TGeoTorus.h" | |
37 | #include "TGeoPgon.h" | |
38 | #include "TGeoPcon.h" | |
39 | #include "TRotation.h" | |
40 | #include "AliITSv11GeometrySSD.h" | |
41 | #include "Riostream.h" | |
42 | ///////////////////////////////////////////////////////////////////////////////// | |
43 | // Names of the Sensitive Volumes of Layer 5 and Layer 6 | |
44 | ///////////////////////////////////////////////////////////////////////////////// | |
45 | const char* AliITSv11GeometrySSD::fgSSDsensitiveVolName5 = "ITSssdSensitivL5"; | |
46 | const char* AliITSv11GeometrySSD::fgSSDsensitiveVolName6 = "ITSssdSensitivL6"; | |
47 | ///////////////////////////////////////////////////////////////////////////////// | |
48 | //Parameters for SSD Geometry | |
49 | ///////////////////////////////////////////////////////////////////////////////// | |
50 | // Variable for Vertical Disalignement of Modules | |
51 | ///////////////////////////////////////////////////////////////////////////////// | |
52 | const Double_t AliITSv11GeometrySSD::fgkSSDTolerance = 0.0001*fgkmm; | |
53 | const Double_t AliITSv11GeometrySSD::fgkSSDModuleVerticalDisalignment = 0.2*fgkmm; | |
54 | const Double_t AliITSv11GeometrySSD::fgkSSDModuleSideDisalignment = 0.2*fgkmm; | |
55 | // For ladders: | |
56 | const Double_t AliITSv11GeometrySSD::fgkSSDLadderVerticalDisalignment = 0.2*fgkmm; | |
57 | ///////////////////////////////////////////////////////////////////////////////// | |
58 | // Layer5 (lengths are in mm and angles in degrees) | |
59 | ///////////////////////////////////////////////////////////////////////////////// | |
60 | const Double_t AliITSv11GeometrySSD::fgkSSDLay5LadderLength = 950.7*fgkmm; | |
61 | const Int_t AliITSv11GeometrySSD::fgkSSDLay5SensorsNumber = 22; | |
62 | const Int_t AliITSv11GeometrySSD::fgkSSDLay5LadderNumber = 34; | |
63 | const Double_t AliITSv11GeometrySSD::fgkSSDLay5RadiusMin = 378.0*fgkmm; | |
64 | const Double_t AliITSv11GeometrySSD::fgkSSDLay5RadiusMax = 384.0*fgkmm; | |
65 | const Double_t AliITSv11GeometrySSD::fgkLay5CenterITSPosition = 467.85*fgkmm; | |
66 | ///////////////////////////////////////////////////////////////////////////////// | |
67 | // Layer6 (lengths are in mm and angles in degrees) | |
68 | ///////////////////////////////////////////////////////////////////////////////// | |
69 | const Double_t AliITSv11GeometrySSD::fgkSSDLay6LadderLength = 1068.0*fgkmm; | |
70 | const Int_t AliITSv11GeometrySSD::fgkSSDLay6SensorsNumber = 25; | |
71 | const Int_t AliITSv11GeometrySSD::fgkSSDLay6LadderNumber = 38; | |
72 | const Double_t AliITSv11GeometrySSD::fgkSSDLay6RadiusMin = 428.0*fgkmm; | |
73 | const Double_t AliITSv11GeometrySSD::fgkSSDLay6RadiusMax = 434.0*fgkmm; | |
74 | const Double_t AliITSv11GeometrySSD::fgkLay6CenterITSPosition = 526.50*fgkmm; | |
75 | ///////////////////////////////////////////////////////////////////////////////// | |
76 | // SSD Chips and Hybrid (lengths are in mm and angles in degrees) | |
77 | ///////////////////////////////////////////////////////////////////////////////// | |
78 | const Int_t AliITSv11GeometrySSD::fgkSSDChipNumber = 6; | |
79 | const Double_t AliITSv11GeometrySSD::fgkSSDChipLength = 11.100*fgkmm; | |
80 | const Double_t AliITSv11GeometrySSD::fgkSSDChipWidth = 3.850*fgkmm; | |
81 | const Double_t AliITSv11GeometrySSD::fgkSSDChipHeight = 0.180*fgkmm; | |
82 | const Double_t AliITSv11GeometrySSD::fgkSSDChipSeparationLength = 1.000*fgkmm; | |
83 | const Double_t AliITSv11GeometrySSD::fgkSSDChipGlueLength = fgkSSDChipLength; | |
84 | const Double_t AliITSv11GeometrySSD::fgkSSDChipGlueWidth = fgkSSDChipWidth; | |
85 | const Double_t AliITSv11GeometrySSD::fgkSSDChipGlueHeight = 0.030*fgkmm; | |
86 | ///////////////////////////////////////////////////////////////////////////////// | |
87 | // Stiffener (lengths are in mm and angles in degrees) | |
88 | ///////////////////////////////////////////////////////////////////////////////// | |
89 | const Double_t AliITSv11GeometrySSD::fgkSSDStiffenerLength = 73.000*fgkmm; | |
90 | const Double_t AliITSv11GeometrySSD::fgkSSDStiffenerWidth = 6.500*fgkmm; | |
91 | //const Double_t AliITSv11GeometrySSD::fgkSSDStiffenerHeight = 3.315; | |
92 | const Double_t AliITSv11GeometrySSD::fgkSSDStiffenerHeight = 0.315*fgkmm; | |
93 | const Double_t AliITSv11GeometrySSD::fgkSSDStiffenerToChipDist = 2.500*fgkmm; | |
94 | const Double_t AliITSv11GeometrySSD::fgkSSDCapacitor0603Length = 1.600*fgkmm; | |
95 | const Double_t AliITSv11GeometrySSD::fgkSSDCapacitor0603Width = 0.870*fgkmm; | |
96 | const Double_t AliITSv11GeometrySSD::fgkSSDCapacitor0603Height = 0.800*fgkmm; | |
97 | const Double_t AliITSv11GeometrySSD::fgkSSDCapacitor1812Length = 4.600*fgkmm; | |
98 | const Double_t AliITSv11GeometrySSD::fgkSSDCapacitor1812Width = 3.400*fgkmm; | |
99 | const Double_t AliITSv11GeometrySSD::fgkSSDCapacitor1812Height = 0.700*fgkmm; // multiplied by 0.5 | |
100 | const Double_t AliITSv11GeometrySSD::fgkSSDWireLength = 30.000*fgkmm; | |
101 | const Double_t AliITSv11GeometrySSD::fgkSSDWireRadius = 0.185*fgkmm; | |
102 | const Double_t AliITSv11GeometrySSD::fgkSSDConnectorPosition[2] = | |
103 | {44.32*fgkmm, 0.33*fgkmm}; | |
104 | const Double_t AliITSv11GeometrySSD::fgkSSDConnectorSeparation = 0.44*fgkmm; | |
105 | const Double_t AliITSv11GeometrySSD::fgkSSDConnectorLength = 2.16*fgkmm; | |
106 | const Double_t AliITSv11GeometrySSD::fgkSSDConnectorWidth = 3.60*fgkmm; | |
107 | const Double_t AliITSv11GeometrySSD::fgkSSDConnectorHeight = | |
108 | 0.25*fgkSSDStiffenerHeight; | |
109 | const Double_t AliITSv11GeometrySSD::fgkSSDConnectorAlHeight = 0.030*fgkmm; | |
110 | const Double_t AliITSv11GeometrySSD::fgkSSDConnectorNiHeight = 0.002*fgkmm; | |
111 | ///////////////////////////////////////////////////////////////////////////////// | |
112 | // Cooling Block (lengths are in mm and angles in degrees) | |
113 | ///////////////////////////////////////////////////////////////////////////////// | |
114 | const Double_t AliITSv11GeometrySSD::fgkSSDCoolingBlockLength = 3.000*fgkmm; | |
115 | const Double_t AliITSv11GeometrySSD::fgkSSDCoolingBlockWidth = 4.000*fgkmm; | |
116 | const Double_t AliITSv11GeometrySSD::fgkSSDCoolingBlockHeight[3] = | |
117 | {1.950*fgkmm, 0.240*fgkmm, 0.300*fgkmm}; | |
118 | const Double_t AliITSv11GeometrySSD::fgkSSDCoolingBlockHoleRadius[2] = | |
119 | {1.000*fgkmm, 0.120*fgkmm}; | |
120 | const Double_t AliITSv11GeometrySSD::fgkSSDCoolingBlockHoleLength[2] = | |
121 | {1.900*fgkmm, 0.400*fgkmm}; | |
122 | const Double_t AliITSv11GeometrySSD::fgkSSDCoolingBlockHoleCenter = | |
123 | 1.500*fgkmm; | |
124 | const Double_t AliITSv11GeometrySSD::fgkSSDCoolingBlockHoleHeight = | |
125 | 0.300*fgkmm; | |
126 | ///////////////////////////////////////////////////////////////////////////////// | |
127 | // SSD Sensor (lengths are in mm and angles in degrees) | |
128 | ///////////////////////////////////////////////////////////////////////////////// | |
129 | const char* AliITSv11GeometrySSD::fgkSSDSensitiveVolName = | |
130 | "SSDSensorSensitiveVol"; | |
131 | const Double_t AliITSv11GeometrySSD::fgkSSDSensorLength = 42.000*fgkmm; | |
132 | const Double_t AliITSv11GeometrySSD::fgkSSDSensorHeight = 0.300*fgkmm; | |
133 | const Double_t AliITSv11GeometrySSD::fgkSSDSensorWidth = 75.000*fgkmm; | |
134 | const Double_t AliITSv11GeometrySSD::fgkSSDSensorOverlap = | |
135 | fgkSSDSensorLength-39.1*fgkmm; | |
136 | const Double_t AliITSv11GeometrySSD::fgkSSDSensorInsensitiveLength = 1.*fgkmm; | |
137 | const Double_t AliITSv11GeometrySSD::fgkSSDSensorInsensitiveWidth = 1.*fgkmm; | |
138 | ///////////////////////////////////////////////////////////////////////////////// | |
139 | // Flex (lengths are in mm and angles in degrees) | |
140 | ///////////////////////////////////////////////////////////////////////////////// | |
141 | const Double_t AliITSv11GeometrySSD::fgkSSDFlexFullLength = 106.000*fgkmm; | |
142 | const Double_t AliITSv11GeometrySSD::fgkSSDFlexLength[4] = | |
143 | {0.5 * (fgkSSDStiffenerLength+fgkSSDChipNumber*fgkSSDChipLength | |
144 | + (fgkSSDChipNumber-1)*fgkSSDChipSeparationLength), | |
145 | 0.5 * (fgkSSDStiffenerLength+fgkSSDChipNumber*fgkSSDChipLength | |
146 | + (fgkSSDChipNumber-1)*fgkSSDChipSeparationLength) | |
147 | - 4.000*fgkmm, 9.500*fgkmm, 10.000*fgkmm}; | |
148 | const Double_t AliITSv11GeometrySSD::fgkSSDFlexWidth[2] = | |
149 | { 9.340*fgkmm, 5.380*fgkmm}; | |
150 | const Double_t AliITSv11GeometrySSD::fgkSSDFlexHeight[2] = | |
151 | { 0.030*fgkmm, 0.020*fgkmm}; | |
152 | const Double_t AliITSv11GeometrySSD::fgkSSDFlexAngle = 30.000; | |
153 | const Double_t AliITSv11GeometrySSD::fgkSSDFlexHoleLength = 1.430*fgkmm; | |
154 | const Double_t AliITSv11GeometrySSD::fgkSSDFlexHoleWidth = 3.000*fgkmm; | |
155 | const Double_t AliITSv11GeometrySSD::fgkSSDEndFlexCompLength[6] = | |
156 | {3.30*fgkmm,4.12*fgkmm,4.22*fgkmm,1.70*fgkmm,0.75*fgkmm,7.18*fgkmm}; | |
157 | const Double_t AliITSv11GeometrySSD:: fgkSSDEndFlexCompWidth[3] = | |
158 | {15.03*fgkmm,23.48*fgkmm,12.28*fgkmm}; | |
159 | ///////////////////////////////////////////////////////////////////////////////// | |
160 | // SSD Ladder Cable (lengths are in mm and angles in degrees) | |
161 | ///////////////////////////////////////////////////////////////////////////////// | |
162 | const Double_t AliITSv11GeometrySSD::fgkSSDLadderCableWidth = 23.5*fgkmm; | |
163 | ///////////////////////////////////////////////////////////////////////////////// | |
164 | // SSD Module (lengths are in mm and angles in degrees) | |
165 | ///////////////////////////////////////////////////////////////////////////////// | |
166 | const Double_t AliITSv11GeometrySSD::fgkSSDModuleStiffenerPosition[2] = | |
167 | { 1.000*fgkmm, 3.900*fgkmm}; | |
168 | const Double_t AliITSv11GeometrySSD::fgkSSDModuleSensorSupportDistance = | |
169 | 45.600*fgkmm; | |
170 | const Double_t AliITSv11GeometrySSD::fgkSSDModuleCoolingBlockToSensor = | |
171 | 5.075*fgkmm; | |
172 | ///////////////////////////////////////////////////////////////////////////////// | |
173 | // Sensor Support (lengths are in mm and angles in degrees) | |
174 | ///////////////////////////////////////////////////////////////////////////////// | |
175 | const Double_t AliITSv11GeometrySSD::fgkSSDSensorSideSupportLength = | |
176 | 5.800*fgkmm; | |
177 | const Double_t AliITSv11GeometrySSD::fgkSSDSensorSideSupportWidth = | |
178 | 2.000*fgkmm; | |
179 | const Double_t AliITSv11GeometrySSD::fgkSSDSensorSideSupportHeight[2] = | |
180 | { 4.620*fgkmm-fgkSSDModuleVerticalDisalignment, | |
181 | 5.220*fgkmm-fgkSSDModuleVerticalDisalignment}; | |
182 | //const Double_t AliITSv11GeometrySSD::fgkSSDSensorSideSupportHeight[2] = | |
183 | // { 4.520*fgkmm, 5.130*fgkmm}; | |
184 | const Double_t AliITSv11GeometrySSD::fgkSSDSensorSideSupportThickness[2] = | |
185 | { 0.450*fgkmm, 0.450*fgkmm}; | |
186 | const Double_t AliITSv11GeometrySSD::fgkSSDSensorSideSupportPosition | |
187 | = 0.5 * (fgkSSDModuleSensorSupportDistance | |
188 | + fgkSSDSensorSideSupportThickness[0]) | |
189 | - fgkSSDSensorSideSupportLength; | |
190 | const Double_t AliITSv11GeometrySSD::fgkSSDSensorCenterSupportLength = | |
191 | 5.250*fgkmm; | |
192 | const Double_t AliITSv11GeometrySSD::fgkSSDSensorCenterSupportWidth = | |
193 | 1.680*fgkmm; | |
194 | const Double_t AliITSv11GeometrySSD::fgkSSDSensorCenterSupportHeight[2] | |
195 | = {fgkSSDSensorSideSupportHeight[0] | |
196 | + fgkSSDSensorSideSupportThickness[0], | |
197 | fgkSSDSensorSideSupportHeight[1] | |
198 | + fgkSSDSensorSideSupportThickness[1]}; | |
199 | const Double_t AliITSv11GeometrySSD::fgkSSDSensorCenterSupportThickness[2] | |
200 | = {fgkSSDSensorSideSupportThickness[0], | |
201 | fgkSSDSensorSideSupportThickness[1]}; | |
202 | const Double_t AliITSv11GeometrySSD::fgkSSDSensorCenterSupportPosition = | |
203 | 19.000*fgkmm; | |
204 | ///////////////////////////////////////////////////////////////////////////////// | |
205 | // Chip Cables (lengths are in mm and angles in degrees) | |
206 | ///////////////////////////////////////////////////////////////////////////////// | |
207 | const Double_t AliITSv11GeometrySSD::fgkSSDChipCablesLength[2] = | |
208 | {73.12/fgkSSDChipNumber*fgkmm,fgkSSDChipLength+2.*0.19*fgkmm}; | |
209 | const Double_t AliITSv11GeometrySSD::fgkSSDChipCablesHeight[4] = | |
210 | { 0.014*fgkmm, 0.010*fgkmm, fgkSSDModuleCoolingBlockToSensor | |
211 | - (fgkSSDSensorSideSupportHeight[1] | |
212 | - fgkSSDSensorSideSupportHeight[0]) | |
213 | - fgkSSDModuleVerticalDisalignment | |
214 | - fgkSSDCoolingBlockHoleCenter | |
215 | - fgkSSDStiffenerHeight | |
216 | - fgkSSDChipHeight-fgkSSDSensorHeight, | |
217 | fgkSSDModuleCoolingBlockToSensor | |
218 | - fgkSSDModuleVerticalDisalignment | |
219 | - fgkSSDCoolingBlockHoleCenter | |
220 | - fgkSSDStiffenerHeight | |
221 | - fgkSSDChipHeight-fgkSSDSensorHeight}; | |
222 | const Double_t AliITSv11GeometrySSD::fgkSSDChipCablesWidth[3] = | |
223 | { 11.000*fgkmm, 0.800*fgkmm, 0.600*fgkmm}; | |
224 | ///////////////////////////////////////////////////////////////////////////////// | |
225 | // Carbon Fiber Junction Parameters (lengths are in mm and angles in degrees) | |
226 | ///////////////////////////////////////////////////////////////////////////////// | |
227 | const Double_t AliITSv11GeometrySSD::fgkCarbonFiberJunctionLength = | |
228 | 3.820*fgkmm; | |
229 | //const Double_t AliITSv11GeometrySSD::fgkCarbonFiberJunctionLength = | |
230 | // 3.780; | |
231 | const Double_t AliITSv11GeometrySSD::fgkCarbonFiberJunctionWidth = | |
232 | fgkSSDSensorLength-fgkSSDSensorOverlap; | |
233 | const Double_t AliITSv11GeometrySSD::fgkCarbonFiberJunctionEdge[2] = | |
234 | { 0.86*fgkmm, 0.30*fgkmm}; | |
235 | const Double_t AliITSv11GeometrySSD::fgkCarbonFiberJunctionAngle[2] = | |
236 | { 30.00, 90.00}; | |
237 | const Double_t AliITSv11GeometrySSD::fgkCarbonFiberJunctionToSensorSupport = | |
238 | 1.78*fgkmm; | |
239 | ///////////////////////////////////////////////////////////////////////////////// | |
240 | //Carbon Fiber Parameters (lengths are in mm and angles in degrees) | |
241 | ///////////////////////////////////////////////////////////////////////////////// | |
242 | const Double_t AliITSv11GeometrySSD::fgkCarbonFiberTriangleLength | |
243 | = fgkSSDModuleSensorSupportDistance | |
244 | - 2. * fgkCarbonFiberJunctionToSensorSupport; | |
245 | const Double_t AliITSv11GeometrySSD::fgkCarbonFiberTriangleAngle = 60.00; | |
246 | const Double_t AliITSv11GeometrySSD::fgkCarbonFiberSupportTopEdgeDist[2] = | |
247 | { 0.751*fgkmm, 0.482*fgkmm}; | |
248 | const Double_t AliITSv11GeometrySSD::fgkCarbonFiberSupportEdgeLength = | |
249 | 1.630*fgkmm; | |
250 | const Double_t AliITSv11GeometrySSD::fgkCarbonFiberSupportWidth = 0.950*fgkmm; | |
251 | const Double_t AliITSv11GeometrySSD::fgkCarbonFiberSupportXAxisLength | |
252 | = fgkCarbonFiberTriangleLength | |
253 | - 0.5*fgkCarbonFiberSupportTopEdgeDist[1] | |
254 | / TMath::Cos(fgkCarbonFiberTriangleAngle | |
255 | * TMath::DegToRad()); | |
256 | const Double_t AliITSv11GeometrySSD::fgkCarbonFiberSupportYAxisLength | |
257 | = 0.5*(fgkCarbonFiberJunctionWidth | |
258 | - fgkCarbonFiberSupportWidth) | |
259 | - fgkCarbonFiberSupportTopEdgeDist[0] | |
260 | - fgkCarbonFiberSupportWidth; | |
261 | ///////////////////////////////////////////////////////////////////////////////// | |
262 | // Carbon Fiber Lower Support Parameters (lengths are in mm) | |
263 | ///////////////////////////////////////////////////////////////////////////////// | |
264 | const Double_t AliITSv11GeometrySSD::fgkLowerSupportToSensorZ = 11.575*fgkmm; | |
265 | const Double_t AliITSv11GeometrySSD::fgkCarbonFiberLowerSupportWidth | |
266 | = 0.950*fgkmm; | |
267 | const Double_t AliITSv11GeometrySSD::fgkCarbonFiberLowerSupportLowerLenght | |
268 | = 1.600*fgkmm; | |
269 | const Double_t AliITSv11GeometrySSD::fgkCarbonFiberLowerSupportHeight | |
270 | = 0.830*fgkmm; | |
271 | const Double_t AliITSv11GeometrySSD::fgkCarbonFiberLowerSupportVolumeSeparation | |
272 | = 0.5*fgkCarbonFiberSupportWidth; | |
273 | const Double_t AliITSv11GeometrySSD::fgkCarbonFiberLowerSupportTransverseWidth | |
274 | = fgkCarbonFiberJunctionWidth | |
275 | - 2. * (fgkCarbonFiberLowerSupportWidth | |
276 | + fgkCarbonFiberLowerSupportVolumeSeparation); | |
277 | const Double_t AliITSv11GeometrySSD::fgkCarbonFiberLowerSupportVolumePosition[2] | |
278 | = {fgkCarbonFiberLowerSupportWidth | |
279 | + fgkCarbonFiberLowerSupportVolumeSeparation, | |
280 | fgkCarbonFiberLowerSupportWidth | |
281 | + fgkCarbonFiberLowerSupportVolumeSeparation | |
282 | + fgkCarbonFiberLowerSupportTransverseWidth}; | |
283 | ///////////////////////////////////////////////////////////////////////////////// | |
284 | // End Ladder Carbon Fiber Junction Parameters (lengths are in mm and angles in degrees) | |
285 | ///////////////////////////////////////////////////////////////////////////////// | |
286 | const Double_t AliITSv11GeometrySSD::fgkEndLadderCarbonFiberLowerJunctionLength[2] = | |
287 | {0.5 * (fgkSSDLay5LadderLength | |
288 | - fgkSSDLay5SensorsNumber | |
289 | * fgkCarbonFiberJunctionWidth | |
290 | - fgkCarbonFiberLowerSupportWidth), | |
291 | 0.5 * (fgkSSDLay5LadderLength | |
292 | - fgkSSDLay5SensorsNumber | |
293 | * fgkCarbonFiberJunctionWidth | |
294 | + fgkCarbonFiberLowerSupportWidth)}; | |
295 | const Double_t AliITSv11GeometrySSD::fgkEndLadderCarbonFiberUpperJunctionLength[2] = | |
296 | {fgkEndLadderCarbonFiberLowerJunctionLength[0]-20.4*fgkmm, | |
297 | fgkEndLadderCarbonFiberLowerJunctionLength[1]-20.6*fgkmm}; | |
298 | const Double_t AliITSv11GeometrySSD::fgkEndLadderMountingBlockPosition[2] = | |
299 | {fgkEndLadderCarbonFiberLowerJunctionLength[0]-16.50*fgkmm, | |
300 | fgkEndLadderCarbonFiberLowerJunctionLength[1]-31.50*fgkmm}; | |
301 | const Double_t AliITSv11GeometrySSD::fgkendladdercoolingsupportdistance[3] = | |
302 | {15.0*fgkmm, 13.5*fgkmm, 14.5*fgkmm}; | |
303 | ///////////////////////////////////////////////////////////////////////////////// | |
304 | // Cooling Tube Support (lengths are in mm and angles in degrees) | |
305 | ///////////////////////////////////////////////////////////////////////////////// | |
306 | const Double_t AliITSv11GeometrySSD::fgkCoolingTubeSupportRmax = 1.45*fgkmm; | |
307 | const Double_t AliITSv11GeometrySSD::fgkCoolingTubeSupportRmin | |
308 | = fgkSSDCoolingBlockHoleRadius[0]; | |
309 | const Double_t AliITSv11GeometrySSD::fgkCoolingTubeSupportLength = 8.55*fgkmm; | |
310 | const Double_t AliITSv11GeometrySSD::fgkCoolingTubeSupportHeight = 0.85*fgkmm; | |
311 | const Double_t AliITSv11GeometrySSD::fgkCoolingTubeSupportWidth = 2.00*fgkmm; | |
312 | const Double_t AliITSv11GeometrySSD::fgkCoolingTubeSupportSeparation = | |
313 | fgkSSDSensorLength-2.*fgkSSDSensorOverlap; | |
314 | const Double_t AliITSv11GeometrySSD::fgkCoolingTubeSupportToCarbonFiber = | |
315 | 11.70*fgkmm; | |
316 | ///////////////////////////////////////////////////////////////////////////////// | |
317 | // Cooling Tube (lengths are in mm and angles in degrees) | |
318 | ///////////////////////////////////////////////////////////////////////////////// | |
319 | const Double_t AliITSv11GeometrySSD::fgkCoolingTubeRmax = fgkCoolingTubeSupportRmin; | |
320 | const Double_t AliITSv11GeometrySSD::fgkCoolingTubeRmin = 0.96*fgkmm; | |
321 | const Double_t AliITSv11GeometrySSD::fgkCoolingTubeLength = | |
322 | fgkCarbonFiberJunctionWidth; | |
323 | const Double_t AliITSv11GeometrySSD::fgkCoolingTubeSeparation = | |
324 | fgkSSDModuleSensorSupportDistance | |
325 | + fgkSSDCoolingBlockLength; | |
326 | const Double_t AliITSv11GeometrySSD::fgkMountingBlockToSensorSupport = 30.7*fgkmm; | |
327 | ///////////////////////////////////////////////////////////////////////////////// | |
328 | // SSD Mounting Block Parameters (lengths are in mm and angles in degrees) | |
329 | ///////////////////////////////////////////////////////////////////////////////// | |
330 | const Double_t AliITSv11GeometrySSD::fgkSSDMountingBlockLength[3] = | |
331 | { 60.0*fgkmm, 42.2*fgkmm, 34.0*fgkmm}; | |
332 | const Double_t AliITSv11GeometrySSD::fgkSSDMountingBlockHeight[4] = | |
333 | { 4.0*fgkmm, 8.0*fgkmm, 5.0*fgkmm, 0.2*fgkmm}; | |
334 | const Double_t AliITSv11GeometrySSD::fgkSSDMountingBlockWidth = | |
335 | 20.0*fgkmm; | |
336 | const Double_t AliITSv11GeometrySSD::fgkSSDMountingBlockHoleTrapezoidAngle = | |
337 | 40.0; | |
338 | const Double_t AliITSv11GeometrySSD::fgkSSDMountingBlockHoleTrapezoidHeight = | |
339 | 0.30*(fgkSSDMountingBlockHeight[1]-fgkSSDMountingBlockHeight[2]); | |
340 | const Double_t AliITSv11GeometrySSD::fgkSSDMountingBlockHoleTrapezoidUpBasis = | |
341 | 2.5*fgkmm; | |
342 | const Double_t AliITSv11GeometrySSD::fgkSSDMountingBlockHoleTubeLength[2] = | |
343 | { 56.0*fgkmm, 12.0*fgkmm}; | |
344 | const Double_t AliITSv11GeometrySSD::fgkSSDMountingBlockHoleTubeWidth[2] = | |
345 | { 5.0*fgkmm, 2.9*fgkmm}; | |
346 | const Double_t AliITSv11GeometrySSD::fgkSSDMountingBlockHoleRadius = | |
347 | 1.0*fgkmm; | |
348 | const Double_t AliITSv11GeometrySSD::fgkSSDMountingBlockScrewHoleEdge = | |
349 | 6.0*fgkmm; | |
350 | const Double_t AliITSv11GeometrySSD::fgkSSDMountingBlockScrewHoleHeigth = | |
351 | 4.0*fgkmm; | |
352 | const Double_t AliITSv11GeometrySSD::fgkSSDMountingBlockScrewHoleRadius[2] = | |
353 | { 1.5*fgkmm,fgkSSDMountingBlockScrewHoleEdge/6.}; | |
354 | ///////////////////////////////////////////////////////////////////////////////// | |
355 | // SSD Mounting Block Clip Parameters (lengths are in mm and angles in degrees) | |
356 | ///////////////////////////////////////////////////////////////////////////////// | |
357 | const Double_t AliITSv11GeometrySSD::fgkMountingBlockClipLength = 15.1*fgkmm; | |
358 | const Double_t AliITSv11GeometrySSD::fgkMountingBlockClipThickness = 0.3*fgkmm; | |
359 | const Double_t AliITSv11GeometrySSD::fgkMountingBlockClibScrewRadius = 1.6*fgkmm; | |
360 | const Double_t AliITSv11GeometrySSD::fgkMountingBlockClibScrewPosition = 4.0*fgkmm; | |
361 | const Double_t AliITSv11GeometrySSD::fgkMountingBlockClibWidth = 9.0*fgkmm; | |
362 | ///////////////////////////////////////////////////////////////////////////////// | |
363 | // SSD Mounting Block Support Parameters (lengths are in mm and angles in degrees) | |
364 | ///////////////////////////////////////////////////////////////////////////////// | |
365 | const Double_t AliITSv11GeometrySSD::fgkMountingBlockSupportWidth[2] = {9.5*fgkmm,10.0*fgkmm}; | |
366 | const Double_t AliITSv11GeometrySSD::fgkMountingBlockSupportDownHeight = 4.0*fgkmm; | |
367 | const Double_t AliITSv11GeometrySSD::fgkMountingBlockSupportRadius[2] = {fgkSSDLay5RadiusMin | |
368 | - fgkSSDMountingBlockHeight[1] | |
369 | + 0.5*fgkCoolingTubeSupportHeight | |
370 | + fgkSSDModuleCoolingBlockToSensor | |
371 | - fgkMountingBlockSupportDownHeight, | |
372 | fgkSSDLay6RadiusMin | |
373 | - fgkSSDMountingBlockHeight[1] | |
374 | + 0.5*fgkCoolingTubeSupportHeight | |
375 | + fgkSSDModuleCoolingBlockToSensor | |
376 | - fgkMountingBlockSupportDownHeight}; | |
377 | const Double_t AliITSv11GeometrySSD::fgkMountingBlockSupportUpHeight[2] = {fgkSSDLay5RadiusMax | |
378 | - fgkSSDMountingBlockHeight[1] | |
379 | + 0.5*fgkCoolingTubeSupportHeight | |
380 | + fgkSSDModuleCoolingBlockToSensor | |
381 | - fgkMountingBlockSupportRadius[0], | |
382 | fgkSSDLay6RadiusMax | |
383 | - fgkSSDMountingBlockHeight[1] | |
384 | + 0.5*fgkCoolingTubeSupportHeight | |
385 | + fgkSSDModuleCoolingBlockToSensor | |
386 | - fgkMountingBlockSupportRadius[1]}; | |
387 | const Double_t AliITSv11GeometrySSD::fgkLadderSupportHeigth = 10.0*fgkmm; // To be verified | |
388 | const Double_t AliITSv11GeometrySSD::fgkLadderSupportRingLay5Position = 451.35*fgkmm; | |
389 | const Double_t AliITSv11GeometrySSD::fgkLadderSupportRingLay6Position = 510.00*fgkmm; | |
390 | ///////////////////////////////////////////////////////////////////////////////// | |
391 | // SSD End Cap Cover Plate Parameters (lengths are in mm and angles in degrees) | |
392 | ///////////////////////////////////////////////////////////////////////////////// | |
393 | const Double_t AliITSv11GeometrySSD::fgkEndCapCoverPlateSmallHoleRadius = 1.25*fgkmm; | |
394 | const Double_t AliITSv11GeometrySSD::fgkEndCapCoverPlateBigHoleRadius = 2.45*fgkmm; | |
395 | const Double_t AliITSv11GeometrySSD::fgkEndCapCoverPlateThickness = 0.5*fgkmm; | |
396 | const Double_t AliITSv11GeometrySSD::fgkEndCapCoverPlateSmallHoleSeparation[3] = | |
397 | {16.5*fgkmm,22.0*fgkmm,7.*fgkmm}; | |
398 | const Double_t AliITSv11GeometrySSD::fgkEndCapCoverPlateLength[6] = | |
399 | {7.*fgkmm,55.*fgkmm,8.0*fgkmm,53.*fgkmm,61.0*fgkmm,25.5*fgkmm}; | |
400 | const Double_t AliITSv11GeometrySSD::fgkEndCapCoverPlateWidth[3] = | |
401 | {68.5*fgkmm,75.5*fgkmm,6.5*fgkmm}; | |
402 | const Double_t AliITSv11GeometrySSD::fgkEndCapCoverPlateScrewRadiusMin = 0.750*fgkmm; | |
403 | const Double_t AliITSv11GeometrySSD::fgkEndCapCoverPlateScrewRadiusMax = 2.*fgkmm; | |
404 | const Double_t AliITSv11GeometrySSD::fgkEndCapCoverPlateClipLength = 10.4*fgkmm; | |
405 | const Double_t AliITSv11GeometrySSD::fgkEndCapCoverPlateClipWidth = 6.0*fgkmm; | |
406 | const Double_t AliITSv11GeometrySSD::fgkEndCapCoverPlateDownClipLength = 5.7*fgkmm; | |
407 | const Double_t AliITSv11GeometrySSD::fgkEndCapCoverPlateDownClipWidth = 5.0*fgkmm; | |
408 | ///////////////////////////////////////////////////////////////////////////////// | |
409 | // SSD End Cap Kapton Foil Parameters (lengths are in mm and angles in degrees) | |
410 | ///////////////////////////////////////////////////////////////////////////////// | |
411 | const Double_t AliITSv11GeometrySSD::fgkEndCapKaptonFoilThickness = 0.4*fgkmm; | |
412 | const Double_t AliITSv11GeometrySSD::fgkEndCapKaptonFoilLength = 68.0*fgkmm; | |
413 | const Double_t AliITSv11GeometrySSD::fgkEndCapKaptonFoilWidth = 75.0*fgkmm; | |
414 | ///////////////////////////////////////////////////////////////////////////////// | |
415 | // SSD End Cap Cooling Tube Parameters (lengths are in mm and angles in degrees) | |
416 | ///////////////////////////////////////////////////////////////////////////////// | |
417 | const Double_t AliITSv11GeometrySSD::fgkEndCapCoolingTubeAxialRadius[2] = | |
418 | {10.5*fgkmm,9.25*fgkmm}; | |
419 | const Double_t AliITSv11GeometrySSD::fgkEndCapCoolingTubeRadiusMin = 1.3*fgkmm; | |
420 | const Double_t AliITSv11GeometrySSD::fgkEndCapCoolingTubeRadiusMax = 1.5*fgkmm; | |
421 | const Double_t AliITSv11GeometrySSD::fgkEndCapCoolingTubeAngle[5] = | |
422 | {182.3,177.9,84.4,70.0,35.0}; | |
423 | const Double_t AliITSv11GeometrySSD::fgkEndCapCoolingTubeLength[5] = | |
424 | {49.5*fgkmm,41.7*fgkmm,47.6*fgkmm,5.0*fgkmm}; | |
425 | const Double_t AliITSv11GeometrySSD::fgkEndCapCoolingTubeToCoverSide = 13.0*fgkmm; | |
426 | ///////////////////////////////////////////////////////////////////////////////// | |
427 | // SSD End Cap Cover Side Parameters (lengths are in mm and angles in degrees) | |
428 | ///////////////////////////////////////////////////////////////////////////////// | |
429 | const Double_t AliITSv11GeometrySSD::fgkEndCapSideCoverLength[5] = {3.5*fgkmm, | |
430 | 6.5*fgkmm,75.0*fgkmm,8.0*fgkmm,2.0*fgkmm}; | |
431 | const Double_t AliITSv11GeometrySSD::fgkEndCapSideCoverWidth[7] = {30.9*fgkmm, | |
432 | 47.5*fgkmm,12.6*fgkmm,5.6*fgkmm, | |
433 | 20.0*fgkmm,7.0*fgkmm,5.9*fgkmm}; | |
434 | const Double_t AliITSv11GeometrySSD::fgkEndCapSideCoverThickness = 0.4*fgkmm; | |
435 | ///////////////////////////////////////////////////////////////////////////////// | |
436 | // SSD End Cap Cards Parameters (lengths are in mm and angles in degrees) | |
437 | ///////////////////////////////////////////////////////////////////////////////// | |
438 | const Double_t AliITSv11GeometrySSD::fgkEndCapCardElectBoardBackLength[3] = | |
439 | {62.0*fgkmm,21.87*fgkmm}; | |
440 | const Double_t AliITSv11GeometrySSD::fgkEndCapCardElectBoardBackWidth[2] = | |
441 | {47.0*fgkmm,0.35*fgkmm}; | |
442 | const Double_t AliITSv11GeometrySSD::fgkEndCapCardElectBoardBackThickness = | |
443 | 1.0*fgkmm; | |
444 | const Double_t AliITSv11GeometrySSD::fgkEndCapCardElectBoardLength = 61.8*fgkmm; | |
445 | const Double_t AliITSv11GeometrySSD::fgkEndCapCardElectBoardLayerWidth[2] = | |
446 | {43.5*fgkmm, 0.70*fgkmm}; | |
447 | const Double_t AliITSv11GeometrySSD::fgkEndCapCardElectBoardLayerThickness = | |
448 | 0.15*fgkmm; | |
449 | const Double_t AliITSv11GeometrySSD::fgkEndCapCardJMDConnectorThickness = | |
450 | 19.0*fgkmm; | |
451 | const Double_t AliITSv11GeometrySSD::fgkEndCapCardJMDConnectorLength[2] = | |
452 | {4.80*fgkmm,1.1*fgkmm}; | |
453 | const Double_t AliITSv11GeometrySSD::fgkEndCapCardJMDConnectorWidth[2] = | |
454 | {3.3*fgkmm,1.10*fgkmm}; | |
455 | const Double_t AliITSv11GeometrySSD::fgkEndCapCardJMDConnectorToLayer = | |
456 | 2.1*fgkmm; | |
457 | const Double_t AliITSv11GeometrySSD::fgkEndCapCardCableConnectorLength[3] = | |
458 | {5.2*fgkmm,3.5*fgkmm,1.2*fgkmm}; | |
459 | const Double_t AliITSv11GeometrySSD::fgkEndCapCardCableConnectorWidth[2] = | |
460 | {1.9*fgkmm,0.15*fgkmm}; | |
461 | const Double_t AliITSv11GeometrySSD::fgkEndCapCardCableConnectorThickness = | |
462 | 19*fgkmm; | |
463 | const Double_t AliITSv11GeometrySSD::fgkEndCapCardCableConnectorDistance = | |
464 | 1.0*fgkmm; | |
465 | const Double_t AliITSv11GeometrySSD::fgkEndCapCardCableConnectorToLayer = | |
466 | 3.6*fgkmm; | |
467 | const Double_t AliITSv11GeometrySSD::fgkEndCapStripConnectionLength = | |
468 | 61.0*fgkmm; | |
469 | const Double_t AliITSv11GeometrySSD::fgkEndCapStripConnectionThickness = | |
470 | 5.97*fgkmm; | |
471 | const Double_t AliITSv11GeometrySSD::fgkEndCapStripConnectionWidth = 3.0*fgkmm; | |
472 | const Double_t AliITSv11GeometrySSD::fgkEndCapInterfaceCardBLength[7] = | |
473 | {3.1*fgkmm,68.0*fgkmm,3.6*fgkmm, | |
474 | 1.9*fgkmm,2.5*fgkmm,14.2*fgkmm,1.5*fgkmm}; | |
475 | const Double_t AliITSv11GeometrySSD::fgkEndCapInterfaceCardBWidth[5] = | |
476 | {17.0*fgkmm,10.0*fgkmm,5.9*fgkmm,6.4*fgkmm,3.9*fgkmm}; | |
477 | const Double_t AliITSv11GeometrySSD::fgkEndCapInterfaceCardBThickness = | |
478 | 1.0*fgkmm; | |
479 | const Double_t AliITSv11GeometrySSD::fgkEndCapInterfaceElectBoardCardBThickness | |
480 | = 0.15*fgkmm; | |
481 | const Double_t AliITSv11GeometrySSD::fgkEndCapInterfaceCardBJMDConnectorSeparation = | |
482 | 20.0*fgkmm; | |
483 | const Double_t AliITSv11GeometrySSD::fgkEndCapStiffenerLength = 68.0*fgkmm; | |
484 | const Double_t AliITSv11GeometrySSD::fgkEndCapStiffenerWidth = 5.0*fgkmm; | |
485 | const Double_t AliITSv11GeometrySSD::fgkEndCapStiffenerThickness = 5.0*fgkmm; | |
486 | const Double_t AliITSv11GeometrySSD::fgkEndCapEffectiveCableRadiusMin = 1.25*fgkmm; // To Be Checked | |
487 | const Double_t AliITSv11GeometrySSD::fgkEndCapEffectiveCableRadiusMax = 1.575*fgkmm; // To Be Checked | |
488 | ///////////////////////////////////////////////////////////////////////////////// | |
489 | // SSD End Cap SupportLayer5/6 Side Parameters (lengths are in mm and angles in degrees) | |
490 | ///////////////////////////////////////////////////////////////////////////////// | |
491 | const Double_t AliITSv11GeometrySSD::fgkEndCapSupportLength[2] = {70.424*fgkmm,72.919*fgkmm}; | |
492 | const Double_t AliITSv11GeometrySSD::fgkEndCapSupportMiddleRadius[2] = {377.0*fgkmm,437.0*fgkmm}; | |
493 | const Double_t AliITSv11GeometrySSD::fgkEndCapSupportLowRadius[2] = {375.0*fgkmm,435.0*fgkmm}; | |
494 | const Double_t AliITSv11GeometrySSD::fgkEndCapSupportHighWidth = 20.0*fgkmm; | |
495 | const Double_t AliITSv11GeometrySSD::fgkEndCapSupportLowWidth[2] = {3.0*fgkmm,3.0*fgkmm}; | |
496 | const Double_t AliITSv11GeometrySSD::fgkEndCapSupportCenterLay5ITSPosition = 625.0*fgkmm; | |
497 | const Double_t AliITSv11GeometrySSD::fgkEndCapSupportCenterLay5Position = 2.5*fgkmm; | |
498 | const Double_t AliITSv11GeometrySSD::fgkEndCapSupportCenterLay6ITSPosition = 635.0*fgkmm; | |
499 | const Double_t AliITSv11GeometrySSD::fgkEndCapSupportCenterLay6Position = 2.5*fgkmm; | |
500 | ///////////////////////////////////////////////////////////////////////////////// | |
501 | // SSD Cone Parameters (lengths are in mm and angles in degrees) | |
502 | ///////////////////////////////////////////////////////////////////////////////// | |
503 | const Double_t AliITSv11GeometrySSD::fgkSSDLowerPConeRadius = 296.5*fgkmm; | |
504 | const Double_t AliITSv11GeometrySSD::fgkSSDPConeAngle = 39.0; | |
505 | const Double_t AliITSv11GeometrySSD::fgkSSDPConeZLength[2] = {168.0*fgkmm,153.0*fgkmm}; | |
506 | const Double_t AliITSv11GeometrySSD::fgkSSDPConeLittleHoleRadius = 317.5*fgkmm; | |
507 | const Double_t AliITSv11GeometrySSD::fgkSSDPConeLittleHoleLength = 20.*fgkmm; | |
508 | const Double_t AliITSv11GeometrySSD::fgkSSDConeMiddleRadius = 350.*fgkmm; | |
509 | const Double_t AliITSv11GeometrySSD::fgkSSDPConeMiddleLength = 30.*fgkmm; | |
510 | const Double_t AliITSv11GeometrySSD::fgkSSDPConeMiddleWidth = 40.*fgkmm; | |
511 | const Double_t AliITSv11GeometrySSD::fgkSSDPConeUpRadius = 400.*fgkmm; | |
512 | const Double_t AliITSv11GeometrySSD::fgkSSDPConeUpMaxRadius = 459.*fgkmm; | |
513 | const Double_t AliITSv11GeometrySSD::fgkSSDPConeUpMiddleRadius = 472.5*fgkmm; | |
514 | const Double_t AliITSv11GeometrySSD::fgkSSDPConeDownRadius = 282.0*fgkmm; | |
515 | const Double_t AliITSv11GeometrySSD::fgkSSDPConeTrapezoidAngle = 42.0; | |
516 | const Double_t AliITSv11GeometrySSD::fgkSSDPConeTrapezoidBasis = 200.0*fgkmm; | |
517 | const Double_t AliITSv11GeometrySSD::fgkSSDPConeExternalRadius = 492.5*fgkmm; | |
518 | const Double_t AliITSv11GeometrySSD::fgkSSDPConeRadiusWidth = 16.75*fgkmm; | |
519 | const Double_t AliITSv11GeometrySSD::fgkSSDPConeLength = 168.0*fgkmm; | |
520 | const Double_t AliITSv11GeometrySSD::fgkSSDCentralSupportLength = 1020.*fgkmm; | |
521 | const Double_t AliITSv11GeometrySSD::fgkSSDCentralSupportRadius = 297.5*fgkmm; | |
522 | const Double_t AliITSv11GeometrySSD::fgkSSDCentralSupportWidth = 6.28*fgkmm; | |
523 | const Double_t AliITSv11GeometrySSD::fgkSSDCentralAL3SupportLength = 60.0*fgkmm; | |
524 | const Double_t AliITSv11GeometrySSD::fgkSSDCentralAL3SupportWidth = 2.5*fgkSSDCentralSupportWidth; | |
525 | ///////////////////////////////////////////////////////////////////////////////// | |
526 | // SSD Cables Parameters (lengths are in mm and angles in degrees) | |
527 | ///////////////////////////////////////////////////////////////////////////////// | |
528 | const Double_t AliITSv11GeometrySSD::fgkSSDCablesLay5TubeRadiusMin = 11.9*fgkmm; | |
529 | const Double_t AliITSv11GeometrySSD::fgkSSDCablesLay6TubeRadiusMin = 11.9*fgkmm; | |
530 | const Double_t AliITSv11GeometrySSD::fgkSSDCablesLay5RightSideHeight = 7.*fgkmm; // to be fixed in order to reproduce material budget | |
531 | const Double_t AliITSv11GeometrySSD::fgkSSDCablesLay6RightSideHeight = 7.*fgkmm; // to be fixed in order to reproduce material budget | |
532 | const Double_t AliITSv11GeometrySSD::fgkSSDCableAngle = 22.5; | |
533 | const Double_t AliITSv11GeometrySSD::fgkSSDCablesLay5RightSideWaterHeight = 2.5*fgkmm; // to be fixed in order to reproduce material budget | |
534 | const Double_t AliITSv11GeometrySSD::fgkSSDCablesPatchPanel2RB26Angle[2] = {25.0,53.2}; | |
535 | const Double_t AliITSv11GeometrySSD::fgkSSDCablesPatchPanel2RB24Angle[2] = {23.0,53.6}; | |
536 | const Double_t AliITSv11GeometrySSD::fgkSSDPatchPanel2RB26ITSDistance = 975.0*fgkmm; | |
537 | const Double_t AliITSv11GeometrySSD::fgkSSDPatchPanel2RB24ITSDistance = 1020.0*fgkmm; | |
538 | const Double_t AliITSv11GeometrySSD::fgkSSDPatchPanel2RB26Radius = 451.3*fgkmm; | |
539 | const Double_t AliITSv11GeometrySSD::fgkSSDPatchPanel2RB24Radius = 451.3*fgkmm; | |
540 | const Double_t AliITSv11GeometrySSD::fgkSSDPatchPanelHeigth = 87.5*fgkmm; | |
541 | const Double_t AliITSv11GeometrySSD::fgkSSDCableMaterialBudgetHeight = 20.0*fgkmm; | |
542 | //const Double_t AliITSv11GeometrySSD::fgkSSDPatchPanel2RB26Radius = fgkSSDPConeExternalRadius; | |
543 | //const Double_t AliITSv11GeometrySSD::fgkSSDPatchPanel2RB24Radius = fgkSSDPConeExternalRadius; | |
544 | ///////////////////////////////////////////////////////////////////////////////// | |
545 | ClassImp(AliITSv11GeometrySSD) | |
546 | ///////////////////////////////////////////////////////////////////////////////// | |
547 | AliITSv11GeometrySSD::AliITSv11GeometrySSD(): | |
548 | AliITSv11Geometry(), | |
549 | fSSDChipMedium(), | |
550 | fSSDChipGlueMedium(), | |
551 | fSSDStiffenerMedium(), | |
552 | fSSDStiffenerConnectorMedium(), | |
553 | fSSDStiffener0603CapacitorMedium(), | |
554 | fSSDStiffener1812CapacitorMedium(), | |
555 | fSSDStiffenerHybridWireMedium(), | |
556 | fSSDKaptonFlexMedium(), | |
557 | fSSDAlTraceFlexMedium(), | |
558 | fSSDAlTraceLadderCableMedium(), | |
559 | fSSDKaptonLadderCableMedium(), | |
560 | fSSDKaptonChipCableMedium(), | |
561 | fSSDAlTraceChipCableMedium(), | |
562 | fSSDAlCoolBlockMedium(), | |
563 | fSSDSensorMedium(), | |
564 | fSSDSensorSupportMedium(), | |
565 | fSSDCarbonFiberMedium(), | |
566 | fSSDTubeHolderMedium(), | |
567 | fSSDCoolingTubeWater(), | |
568 | fSSDCoolingTubePhynox(), | |
569 | fSSDSupportRingAl(), | |
570 | fSSDMountingBlockMedium(), | |
571 | fSSDRohaCellCone(), | |
572 | fSSDAir(), | |
573 | fSSDCopper(), | |
574 | fCreateMaterials(kFALSE), | |
575 | fTransformationMatrices(kFALSE), | |
576 | fBasicObjects(kFALSE), | |
577 | fcarbonfiberjunction(), | |
578 | fcoolingtubesupport(), | |
579 | fhybridmatrix(), | |
580 | fssdcoolingblocksystem(), | |
581 | fcoolingblocksystematrix(), | |
582 | fssdstiffenerflex(), | |
583 | fssdendflex(), | |
584 | fendladdercoolingtubesupportmatrix(), | |
585 | fendladdermountingblock(), | |
586 | fendladdermountingblockclip(), | |
587 | fSSDSensor5(), | |
588 | fSSDSensor6(), | |
589 | fSSDLayer5(), | |
590 | fSSDLayer6(), | |
591 | fMotherVol(), | |
592 | fLay5LadderSupportRing(), | |
593 | fLay6LadderSupportRing(), | |
594 | fgkEndCapSupportSystem(), | |
595 | fSSDCone(), | |
596 | fColorCarbonFiber(4), | |
597 | fColorRyton(5), | |
598 | fColorPhynox(14), | |
599 | fColorSilicon(3), | |
600 | fColorAl(38), | |
601 | fColorKapton(6), | |
602 | fColorPolyhamide(5), | |
603 | fColorStiffener(9), | |
604 | fColorEpoxy(30), | |
605 | fColorWater(7), | |
606 | fColorG10(41) | |
607 | { | |
608 | //////////////////////// | |
609 | // Standard constructor | |
610 | //////////////////////// | |
611 | } | |
612 | ///////////////////////////////////////////////////////////////////////////////// | |
613 | AliITSv11GeometrySSD::AliITSv11GeometrySSD(const AliITSv11GeometrySSD &s): | |
614 | AliITSv11Geometry(s.GetDebug()), | |
615 | fSSDChipMedium(s.fSSDChipMedium), | |
616 | fSSDChipGlueMedium(s.fSSDChipGlueMedium), | |
617 | fSSDStiffenerMedium(s.fSSDStiffenerMedium), | |
618 | fSSDStiffenerConnectorMedium(s.fSSDStiffenerConnectorMedium), | |
619 | fSSDStiffener0603CapacitorMedium(s.fSSDStiffener0603CapacitorMedium), | |
620 | fSSDStiffener1812CapacitorMedium(s.fSSDStiffener1812CapacitorMedium), | |
621 | fSSDStiffenerHybridWireMedium(s.fSSDStiffenerHybridWireMedium), | |
622 | fSSDKaptonFlexMedium(s.fSSDKaptonFlexMedium), | |
623 | fSSDAlTraceFlexMedium(s.fSSDAlTraceFlexMedium), | |
624 | fSSDAlTraceLadderCableMedium(s.fSSDAlTraceLadderCableMedium), | |
625 | fSSDKaptonLadderCableMedium(s.fSSDKaptonLadderCableMedium), | |
626 | fSSDKaptonChipCableMedium(s.fSSDKaptonChipCableMedium), | |
627 | fSSDAlTraceChipCableMedium(s.fSSDAlTraceChipCableMedium), | |
628 | fSSDAlCoolBlockMedium(s.fSSDAlCoolBlockMedium), | |
629 | fSSDSensorMedium(s.fSSDSensorMedium), | |
630 | fSSDSensorSupportMedium(s.fSSDSensorSupportMedium), | |
631 | fSSDCarbonFiberMedium(s.fSSDCarbonFiberMedium), | |
632 | fSSDTubeHolderMedium(s.fSSDTubeHolderMedium), | |
633 | fSSDCoolingTubeWater(s.fSSDCoolingTubeWater), | |
634 | fSSDCoolingTubePhynox(s.fSSDCoolingTubePhynox), | |
635 | fSSDSupportRingAl(s.fSSDSupportRingAl), | |
636 | fSSDMountingBlockMedium(s.fSSDMountingBlockMedium), | |
637 | fSSDRohaCellCone(s.fSSDRohaCellCone), | |
638 | fSSDAir(s.fSSDAir), | |
639 | fSSDCopper(s.fSSDCopper), | |
640 | fCreateMaterials(s.fCreateMaterials), | |
641 | fTransformationMatrices(s.fTransformationMatrices), | |
642 | fBasicObjects(s.fBasicObjects), | |
643 | fcarbonfiberjunction(s.fcarbonfiberjunction), | |
644 | fcoolingtubesupport(s.fcoolingtubesupport), | |
645 | fhybridmatrix(s.fhybridmatrix), | |
646 | fssdcoolingblocksystem(s.fssdcoolingblocksystem), | |
647 | fcoolingblocksystematrix(s.fcoolingblocksystematrix), | |
648 | fssdstiffenerflex(s.fssdstiffenerflex), | |
649 | fssdendflex(s.fssdendflex), | |
650 | fendladdercoolingtubesupportmatrix(s.fendladdercoolingtubesupportmatrix), | |
651 | fendladdermountingblock(s.fendladdermountingblock), | |
652 | fendladdermountingblockclip(s.fendladdermountingblockclip), | |
653 | fSSDSensor5(s.fSSDSensor5), | |
654 | fSSDSensor6(s.fSSDSensor6), | |
655 | fSSDLayer5(s.fSSDLayer5), | |
656 | fSSDLayer6(s.fSSDLayer6), | |
657 | fMotherVol(s.fMotherVol), | |
658 | fLay5LadderSupportRing(s.fLay5LadderSupportRing), | |
659 | fLay6LadderSupportRing(s.fLay6LadderSupportRing), | |
660 | fgkEndCapSupportSystem(s.fgkEndCapSupportSystem), | |
661 | fSSDCone(s.fSSDCone), | |
662 | fColorCarbonFiber(s.fColorCarbonFiber), | |
663 | fColorRyton(s.fColorRyton), | |
664 | fColorPhynox(s.fColorPhynox), | |
665 | fColorSilicon(s.fColorSilicon), | |
666 | fColorAl(s.fColorAl), | |
667 | fColorKapton(s.fColorKapton), | |
668 | fColorPolyhamide(s.fColorPolyhamide), | |
669 | fColorStiffener(s.fColorStiffener), | |
670 | fColorEpoxy(s.fColorEpoxy), | |
671 | fColorWater(s.fColorWater), | |
672 | fColorG10(s.fColorG10) | |
673 | { | |
674 | //////////////////////// | |
675 | // Copy Constructor | |
676 | //////////////////////// | |
677 | } | |
678 | ///////////////////////////////////////////////////////////////////////////////// | |
679 | AliITSv11GeometrySSD& AliITSv11GeometrySSD:: | |
680 | operator=(const AliITSv11GeometrySSD &s){ | |
681 | //////////////////////// | |
682 | // Assignment operator | |
683 | //////////////////////// | |
684 | this->~AliITSv11GeometrySSD(); | |
685 | new(this) AliITSv11GeometrySSD(s); | |
686 | return *this; | |
687 | /* | |
688 | if(&s == this) return *this; | |
689 | fMotherVol = s.fMotherVol; | |
690 | return *this; | |
691 | */ | |
692 | } | |
693 | /////////////////////////////////////////////////////////////////////////////// | |
694 | void AliITSv11GeometrySSD::CreateTransformationMatrices(){ | |
695 | /////////////////////////////////////////////////////////////////////// | |
696 | // Method generating the trasformation matrix for the whole SSD Geometry | |
697 | /////////////////////////////////////////////////////////////////////// | |
698 | // Setting some variables for Carbon Fiber Supportmatrix creation | |
699 | ////////////////////////////////////////////////////////////////////// | |
700 | Double_t carbonfibersupportxaxisEdgeproj = fgkCarbonFiberSupportEdgeLength | |
701 | * CosD(fgkCarbonFiberJunctionAngle[0]); | |
702 | Double_t symmetryplaneposition = (fgkCarbonFiberSupportYAxisLength | |
703 | + fgkCarbonFiberSupportTopEdgeDist[0] | |
704 | + fgkCarbonFiberSupportWidth); | |
705 | Double_t carbonfibersupportheight = carbonfibersupportxaxisEdgeproj | |
706 | * TanD(fgkCarbonFiberJunctionAngle[0]); | |
707 | TGeoRotation* carbonfiberot[3]; | |
708 | for(Int_t i=0; i<3; i++) carbonfiberot[i] = new TGeoRotation(); | |
709 | carbonfiberot[0]->SetAngles(0.0,180.0,0.0); | |
710 | carbonfiberot[1]->SetAngles(90.,-fgkCarbonFiberTriangleAngle,-90.); | |
711 | carbonfiberot[2]->SetRotation((*carbonfiberot[1])*(*carbonfiberot[0])); | |
712 | Double_t transvector[3] = {fgkCarbonFiberTriangleLength | |
713 | * CosD(fgkCarbonFiberTriangleAngle),0., | |
714 | - fgkCarbonFiberTriangleLength | |
715 | * SinD(fgkCarbonFiberTriangleAngle)}; | |
716 | /////////////////////////////////////////// | |
717 | //Setting Local Translations and Rotations: | |
718 | /////////////////////////////////////////// | |
719 | TGeoCombiTrans* localcarbonfibersupportmatrix[3]; | |
720 | localcarbonfibersupportmatrix[0] = new TGeoCombiTrans(0.0,0.0, | |
721 | 0.5*carbonfibersupportheight,NULL); | |
722 | localcarbonfibersupportmatrix[1] = new TGeoCombiTrans(transvector[0], | |
723 | 2.*symmetryplaneposition+transvector[1], | |
724 | transvector[2], carbonfiberot[2]); | |
725 | localcarbonfibersupportmatrix[2] = new TGeoCombiTrans(*carbonfiberot[1]); | |
726 | ///////////////////////////////////////////////////////////// | |
727 | // Carbon Fiber Support Transformations | |
728 | ///////////////////////////////////////////////////////////// | |
729 | const Int_t kcarbonfibersupportmatrixnumber[2] = {2,3}; | |
730 | for(Int_t i=0; i<fgkcarbonfibersupportnumber; i++){ | |
731 | fcarbonfibersupportmatrix[i] = new TGeoHMatrix(); | |
732 | for(Int_t j=0; j<kcarbonfibersupportmatrixnumber[i]; j++) | |
733 | fcarbonfibersupportmatrix[i]->MultiplyLeft(localcarbonfibersupportmatrix[i==0?2*j:j]); | |
734 | } | |
735 | ///////////////////////////////////////////////////////////// | |
736 | // Carbon Fiber Junction Transformation | |
737 | ///////////////////////////////////////////////////////////// | |
738 | const Int_t kcarbonfiberjunctionmatrixnumber = 2; | |
739 | TGeoCombiTrans** localcarbonfiberjunctionmatrix[fgkcarbonfiberjunctionumber]; | |
740 | TGeoRotation** localcarbonfiberjunctionrot[fgkcarbonfiberjunctionumber]; | |
741 | TGeoTranslation** localcarbonfiberjunctiontrans[fgkcarbonfiberjunctionumber]; | |
742 | for(Int_t i=0; i<fgkcarbonfiberjunctionumber; i++){ | |
743 | localcarbonfiberjunctionmatrix[i] = | |
744 | new TGeoCombiTrans*[kcarbonfiberjunctionmatrixnumber]; | |
745 | localcarbonfiberjunctionrot[i] = | |
746 | new TGeoRotation*[kcarbonfiberjunctionmatrixnumber]; | |
747 | localcarbonfiberjunctiontrans[i] = | |
748 | new TGeoTranslation*[kcarbonfiberjunctionmatrixnumber]; | |
749 | } | |
750 | /////////////////////// | |
751 | // Setting Translations | |
752 | /////////////////////// | |
753 | localcarbonfiberjunctiontrans[0][0] = new TGeoTranslation(0.,0.,0.); | |
754 | localcarbonfiberjunctiontrans[1][0] = | |
755 | new TGeoTranslation(fgkCarbonFiberTriangleLength,0.0,0.0); | |
756 | localcarbonfiberjunctiontrans[2][0] = | |
757 | new TGeoTranslation(fgkCarbonFiberTriangleLength | |
758 | * TMath::Cos(fgkCarbonFiberTriangleAngle*TMath::DegToRad()), | |
759 | fgkCarbonFiberTriangleLength | |
760 | * TMath::Sin(fgkCarbonFiberTriangleAngle*TMath::DegToRad()),0.0); | |
761 | localcarbonfiberjunctiontrans[0][1] = | |
762 | new TGeoTranslation(0.0,0.5*fgkCarbonFiberJunctionWidth,0.0); | |
763 | localcarbonfiberjunctiontrans[1][1] = | |
764 | new TGeoTranslation(*localcarbonfiberjunctiontrans[0][1]); | |
765 | localcarbonfiberjunctiontrans[2][1] = | |
766 | new TGeoTranslation(*localcarbonfiberjunctiontrans[0][1]); | |
767 | //////////////////// | |
768 | // Setting Rotations | |
769 | //////////////////// | |
770 | for(Int_t i=0; i<fgkcarbonfiberjunctionumber; i++) | |
771 | for(Int_t j=0; j<kcarbonfiberjunctionmatrixnumber; j++) | |
772 | localcarbonfiberjunctionrot[i][j] = new TGeoRotation(); | |
773 | for(Int_t i=0; i<fgkcarbonfiberjunctionumber; i++) | |
774 | localcarbonfiberjunctionrot[i][0]->SetAngles(120.*i,0.0,0.0); | |
775 | localcarbonfiberjunctionrot[0][1]->SetAngles(0.0,90.0,0.0); | |
776 | localcarbonfiberjunctionrot[1][1]->SetRotation(*localcarbonfiberjunctionrot[0][1]); | |
777 | localcarbonfiberjunctionrot[2][1]->SetRotation(*localcarbonfiberjunctionrot[0][1]); | |
778 | //////////////////////////////////////// | |
779 | // Setting Carbon Fiber Junction matrix | |
780 | //////////////////////////////////////// | |
781 | for(Int_t i=0; i<fgkcarbonfiberjunctionumber; i++){ | |
782 | fcarbonfiberjunctionmatrix[i] = new TGeoHMatrix(); | |
783 | for(Int_t j=0; j<kcarbonfiberjunctionmatrixnumber; j++){ | |
784 | localcarbonfiberjunctionmatrix[i][j] = | |
785 | new TGeoCombiTrans(*localcarbonfiberjunctiontrans[i][j], | |
786 | *localcarbonfiberjunctionrot[i][j]); | |
787 | fcarbonfiberjunctionmatrix[i]->MultiplyLeft(localcarbonfiberjunctionmatrix[i][j]); | |
788 | } | |
789 | } | |
790 | ///////////////////////////////////////////////////////////// | |
791 | // Carbon Fiber Lower Support Transformations | |
792 | ///////////////////////////////////////////////////////////// | |
793 | TGeoTranslation* localcarbonfiberlowersupportrans[2]; | |
794 | localcarbonfiberlowersupportrans[0] = new TGeoTranslation(0.0, | |
795 | fgkCarbonFiberLowerSupportVolumePosition[1] | |
796 | + fgkCarbonFiberLowerSupportVolumePosition[0], | |
797 | 0.0); | |
798 | localcarbonfiberlowersupportrans[1] = new TGeoTranslation(0.0, | |
799 | fgkCarbonFiberJunctionWidth | |
800 | - fgkCarbonFiberLowerSupportWidth | |
801 | - fgkCarbonFiberLowerSupportVolumePosition[0] | |
802 | - fgkCarbonFiberLowerSupportVolumePosition[1], | |
803 | - 0.5*fgkCarbonFiberLowerSupportHeight); | |
804 | localcarbonfiberlowersupportrans[0]->Add(localcarbonfiberlowersupportrans[1]); | |
805 | fcarbonfiberlowersupportrans[0] = | |
806 | new TGeoTranslation(*localcarbonfiberlowersupportrans[0]); | |
807 | fcarbonfiberlowersupportrans[1] = | |
808 | new TGeoTranslation(*localcarbonfiberlowersupportrans[1]); | |
809 | ///////////////////////////////////////////////////////////// | |
810 | // SSD Sensor Support Transformations | |
811 | ///////////////////////////////////////////////////////////// | |
812 | const Int_t kssdsensorsupportmatrixnumber = 3; | |
813 | TGeoCombiTrans** localssdsensorsupportmatrix[fgkssdsensorsupportnumber]; | |
814 | TGeoRotation** localssdsensorsupportrot[fgkssdsensorsupportnumber]; | |
815 | TGeoTranslation** localssdsensorsupportrans[fgkssdsensorsupportnumber]; | |
816 | for(Int_t i=0; i<fgkssdsensorsupportnumber; i++){ | |
817 | localssdsensorsupportmatrix[i] = | |
818 | new TGeoCombiTrans*[kssdsensorsupportmatrixnumber]; | |
819 | localssdsensorsupportrot[i] = | |
820 | new TGeoRotation*[kssdsensorsupportmatrixnumber]; | |
821 | localssdsensorsupportrans[i] = | |
822 | new TGeoTranslation*[kssdsensorsupportmatrixnumber]; | |
823 | } | |
824 | /////////////////////// | |
825 | // Setting Translations | |
826 | /////////////////////// | |
827 | localssdsensorsupportrans[0][0] = new TGeoTranslation(0.0, | |
828 | 0.5*fgkSSDSensorSideSupportWidth, | |
829 | 0.0); | |
830 | localssdsensorsupportrans[1][0] = | |
831 | new TGeoTranslation(*localssdsensorsupportrans[0][0]); | |
832 | localssdsensorsupportrans[2][0] = | |
833 | new TGeoTranslation(*localssdsensorsupportrans[0][0]); | |
834 | localssdsensorsupportrans[0][1] = | |
835 | new TGeoTranslation(-0.5*fgkSSDSensorSideSupportWidth, | |
836 | 0.5*fgkSSDSensorSideSupportThickness[0], | |
837 | 0.0); | |
838 | localssdsensorsupportrans[1][1] = | |
839 | new TGeoTranslation(0.5*fgkSSDSensorSideSupportWidth, | |
840 | - 0.5*fgkSSDSensorSideSupportThickness[0] | |
841 | - fgkSSDModuleSensorSupportDistance, | |
842 | 0.0); | |
843 | localssdsensorsupportrans[2][1] = | |
844 | new TGeoTranslation(0.5*fgkSSDSensorCenterSupportThickness[0] | |
845 | - fgkSSDSensorCenterSupportPosition, | |
846 | 0.5*fgkSSDSensorCenterSupportWidth | |
847 | - 0.5*fgkSSDModuleSensorSupportDistance, | |
848 | fgkSSDSensorCenterSupportThickness[0]); | |
849 | localssdsensorsupportrans[0][2] = | |
850 | new TGeoTranslation(fgkCarbonFiberTriangleLength | |
851 | + fgkCarbonFiberJunctionToSensorSupport, | |
852 | fgkCarbonFiberJunctionWidth | |
853 | - 0.5*(fgkCarbonFiberLowerSupportWidth | |
854 | + fgkSSDSensorCenterSupportLength | |
855 | - fgkSSDSensorCenterSupportThickness[0]) | |
856 | - fgkSSDSensorCenterSupportPosition, | |
857 | 0.0); | |
858 | localssdsensorsupportrans[1][2] = | |
859 | new TGeoTranslation(*localssdsensorsupportrans[0][2]); | |
860 | localssdsensorsupportrans[2][2] = | |
861 | new TGeoTranslation(*localssdsensorsupportrans[0][2]); | |
862 | //////////////////// | |
863 | // Setting Rotations | |
864 | //////////////////// | |
865 | for(Int_t i=0; i<fgkssdsensorsupportnumber; i++) | |
866 | for(Int_t j=0; j<kssdsensorsupportmatrixnumber; j++) | |
867 | localssdsensorsupportrot[i][j] = new TGeoRotation(); | |
868 | for(Int_t i=0; i<fgkssdsensorsupportnumber; i++){ | |
869 | localssdsensorsupportrot[i][0]->SetAngles(0.0,90.0,0.0); | |
870 | localssdsensorsupportrot[i][2]->SetAngles(-90.0,0.0,0.0); | |
871 | } | |
872 | localssdsensorsupportrot[0][1]->SetAngles(0.0,90.0,-90.0); | |
873 | localssdsensorsupportrot[1][1]->SetAngles(180.0,90.0,-90.0); | |
874 | localssdsensorsupportrot[2][1]->SetAngles(270.0,90.0,-90.0); | |
875 | //////////////////////////////////////// | |
876 | // SSD Sensor Support matrix | |
877 | //////////////////////////////////////// | |
878 | for(Int_t i=0; i<fgkssdsensorsupportnumber; i++){ | |
879 | fssdsensorsupportmatrix[i] = new TGeoHMatrix(); | |
880 | for(Int_t j=0; j<kssdsensorsupportmatrixnumber; j++){ | |
881 | localssdsensorsupportmatrix[i][j] = | |
882 | new TGeoCombiTrans(*localssdsensorsupportrans[i][j], | |
883 | *localssdsensorsupportrot[i][j]); | |
884 | fssdsensorsupportmatrix[i]->MultiplyLeft(localssdsensorsupportmatrix[i][j]); | |
885 | } | |
886 | } | |
887 | ///////////////////////////////////////////////////////////// | |
888 | // SSD Cooling Tube Support Transformations | |
889 | ///////////////////////////////////////////////////////////// | |
890 | const Int_t kcoolingtubesupportmatrixnumber = 2; | |
891 | TGeoCombiTrans* localcoolingtubesupportmatrix[kcoolingtubesupportmatrixnumber]; | |
892 | TGeoTranslation* localcoolingtubesupportrans[kcoolingtubesupportmatrixnumber]; | |
893 | TGeoRotation* localcoolingtubesupportrot[kcoolingtubesupportmatrixnumber]; | |
894 | Double_t phi = TMath::ASin(0.5*fgkCoolingTubeSupportHeight | |
895 | /fgkCoolingTubeSupportRmax); | |
896 | localcoolingtubesupportrans[0] = | |
897 | new TGeoTranslation(2.*fgkCoolingTubeSupportRmax*TMath::Cos(phi) | |
898 | + 2.*(fgkCoolingTubeSupportLength | |
899 | - fgkCoolingTubeSupportRmax*(1.+TMath::Cos(phi))) | |
900 | + fgkCarbonFiberTriangleLength | |
901 | - 2.0*fgkCarbonFiberJunctionLength,0.0,0.0); | |
902 | localcoolingtubesupportrans[1] = | |
903 | new TGeoTranslation(fgkCarbonFiberJunctionLength | |
904 | - (fgkCoolingTubeSupportLength-fgkCoolingTubeSupportRmax), | |
905 | - (2.0*fgkSSDSensorLength-fgkSSDSensorOverlap)+ | |
906 | fgkSSDModuleStiffenerPosition[1]+fgkSSDStiffenerWidth | |
907 | + 0.5*fgkSSDFlexHoleLength+2.*fgkCarbonFiberJunctionWidth | |
908 | - 0.5*(fgkCarbonFiberLowerSupportWidth | |
909 | + fgkSSDSensorCenterSupportLength | |
910 | - fgkSSDSensorCenterSupportThickness[0]) | |
911 | + 0.5*fgkSSDSensorLength, | |
912 | - 0.5*fgkCoolingTubeSupportHeight); | |
913 | for(Int_t i=0; i<kcoolingtubesupportmatrixnumber; i++) | |
914 | localcoolingtubesupportrot[i] = new TGeoRotation(); | |
915 | localcoolingtubesupportrot[0]->SetAngles(180.0,0.0,0.0); | |
916 | localcoolingtubesupportrot[1]->SetAngles(0.0,90.0,0.0); | |
917 | for(Int_t i=0; i<kcoolingtubesupportmatrixnumber; i++) | |
918 | localcoolingtubesupportmatrix[i] = | |
919 | new TGeoCombiTrans(*localcoolingtubesupportrans[i], | |
920 | *localcoolingtubesupportrot[i]); | |
921 | fcoolingtubesupportmatrix[0] = new TGeoHMatrix(*localcoolingtubesupportmatrix[1]); | |
922 | fcoolingtubesupportmatrix[1] = new TGeoHMatrix((*localcoolingtubesupportmatrix[1])* | |
923 | (*localcoolingtubesupportmatrix[0])); | |
924 | ///////////////////////////////////////////////////////////// | |
925 | // End Ladder SSD Cooling Tube Support Transformations | |
926 | ///////////////////////////////////////////////////////////// | |
927 | TGeoTranslation** localendladdercooltubetrans[2]; | |
928 | localendladdercooltubetrans[0] = new TGeoTranslation*[4]; | |
929 | localendladdercooltubetrans[1] = new TGeoTranslation*[2]; | |
930 | for(Int_t i=0; i<4; i++) localendladdercooltubetrans[0][i] = new TGeoTranslation(); | |
931 | localendladdercooltubetrans[0][0]->SetTranslation(fgkCarbonFiberJunctionLength | |
932 | - (fgkCoolingTubeSupportLength | |
933 | - fgkCoolingTubeSupportRmax), | |
934 | fgkEndLadderMountingBlockPosition[0] | |
935 | - fgkendladdercoolingsupportdistance[0] | |
936 | + 0.5*fgkCoolingTubeSupportWidth, | |
937 | - 0.5*fgkCoolingTubeSupportHeight); | |
938 | localendladdercooltubetrans[0][1]->SetTranslation(fgkCarbonFiberJunctionLength | |
939 | - (fgkCoolingTubeSupportLength | |
940 | - fgkCoolingTubeSupportRmax), | |
941 | fgkEndLadderMountingBlockPosition[0] | |
942 | + fgkendladdercoolingsupportdistance[1] | |
943 | + 0.5*fgkCoolingTubeSupportWidth, | |
944 | - 0.5*fgkCoolingTubeSupportHeight); | |
945 | localendladdercooltubetrans[0][2]->SetTranslation(2*(fgkCoolingTubeSupportLength | |
946 | - fgkCoolingTubeSupportRmax) | |
947 | + fgkCarbonFiberTriangleLength | |
948 | - 2.0*fgkCarbonFiberJunctionLength, | |
949 | 0.0, | |
950 | 0.0); | |
951 | localendladdercooltubetrans[0][3]->SetTranslation(0.0, | |
952 | fgkendladdercoolingsupportdistance[0] | |
953 | + fgkendladdercoolingsupportdistance[1], | |
954 | 0.0); | |
955 | for(Int_t i=0; i<2; i++) localendladdercooltubetrans[1][i] = new TGeoTranslation(); | |
956 | localendladdercooltubetrans[1][0]->SetTranslation(fgkCoolingTubeSupportRmax | |
957 | + fgkCarbonFiberJunctionLength | |
958 | - fgkCoolingTubeSupportLength, | |
959 | fgkEndLadderCarbonFiberLowerJunctionLength[1] | |
960 | - 0.5*fgkCoolingTubeSupportWidth | |
961 | -fgkendladdercoolingsupportdistance[2], | |
962 | - 0.5*fgkCoolingTubeSupportHeight); | |
963 | localendladdercooltubetrans[1][1]->SetTranslation(fgkCarbonFiberTriangleLength | |
964 | + fgkCoolingTubeSupportLength | |
965 | - fgkCoolingTubeSupportRmax | |
966 | - fgkCarbonFiberJunctionLength, | |
967 | fgkEndLadderCarbonFiberLowerJunctionLength[1] | |
968 | - 0.5*fgkCoolingTubeSupportWidth | |
969 | - fgkendladdercoolingsupportdistance[2], | |
970 | - 0.5*fgkCoolingTubeSupportHeight); | |
971 | fendladdercoolingtubesupportmatrix = new TGeoHMatrix**[kcoolingtubesupportmatrixnumber]; | |
972 | fendladdercoolingtubesupportmatrix[0] = new TGeoHMatrix*[4]; | |
973 | fendladdercoolingtubesupportmatrix[1] = new TGeoHMatrix*[2]; | |
974 | fendladdercoolingtubesupportmatrix[0][0] = new TGeoHMatrix((*localendladdercooltubetrans[0][0])* | |
975 | (*localcoolingtubesupportrot[1])); | |
976 | fendladdercoolingtubesupportmatrix[0][1] = new TGeoHMatrix((*localendladdercooltubetrans[0][1])* | |
977 | (*localcoolingtubesupportrot[1])); | |
978 | fendladdercoolingtubesupportmatrix[0][2] = new TGeoHMatrix(*fendladdercoolingtubesupportmatrix[0][0]); | |
979 | fendladdercoolingtubesupportmatrix[0][2]->Multiply(localcoolingtubesupportrot[0]); | |
980 | fendladdercoolingtubesupportmatrix[0][2]->MultiplyLeft(localendladdercooltubetrans[0][2]); | |
981 | fendladdercoolingtubesupportmatrix[0][3] = new TGeoHMatrix(*fendladdercoolingtubesupportmatrix[0][2]); | |
982 | fendladdercoolingtubesupportmatrix[0][3]->MultiplyLeft(localendladdercooltubetrans[0][3]); | |
983 | ||
984 | fendladdercoolingtubesupportmatrix[1][0] = | |
985 | new TGeoHMatrix((*localendladdercooltubetrans[1][0]) | |
986 | *(*localcoolingtubesupportrot[1])); | |
987 | fendladdercoolingtubesupportmatrix[1][1] = new TGeoHMatrix(*localcoolingtubesupportrot[1]); | |
988 | fendladdercoolingtubesupportmatrix[1][1]->Multiply(localcoolingtubesupportrot[0]); | |
989 | fendladdercoolingtubesupportmatrix[1][1]->MultiplyLeft(localendladdercooltubetrans[1][1]); | |
990 | ///////////////////////////////////////////////////////////// | |
991 | // SSD Cooling Tube Transformations | |
992 | ///////////////////////////////////////////////////////////// | |
993 | TGeoRotation* localcoolingtuberot = new TGeoRotation(); | |
994 | localcoolingtuberot->SetAngles(0.,90.,0.); | |
995 | TGeoTranslation** localcoolingtubetrans[4]; | |
996 | TVector3** localcoolingtubevect[4]; | |
997 | for(Int_t i=0; i<4; i++){ | |
998 | localcoolingtubevect[i] = new TVector3*[2]; | |
999 | localcoolingtubetrans[i] = new TGeoTranslation*[2]; | |
1000 | fcoolingtubematrix[i] = new TGeoHMatrix*[2]; | |
1001 | } | |
1002 | localcoolingtubevect[0][0] = new TVector3(-0.5*(fgkCoolingTubeSeparation | |
1003 | -fgkCarbonFiberTriangleLength), | |
1004 | - (2.0*fgkSSDSensorLength-fgkSSDSensorOverlap)+ | |
1005 | fgkSSDModuleStiffenerPosition[1]+fgkSSDStiffenerWidth | |
1006 | + 0.5*fgkSSDFlexHoleLength+2.*fgkCarbonFiberJunctionWidth | |
1007 | - 0.5*(fgkCarbonFiberLowerSupportWidth | |
1008 | + fgkSSDSensorCenterSupportLength | |
1009 | - fgkSSDSensorCenterSupportThickness[0])+ | |
1010 | 0.5*fgkSSDSensorLength-0.25*(fgkSSDSensorLength | |
1011 | - 2.0*fgkSSDModuleStiffenerPosition[1] | |
1012 | - 2.0*fgkSSDCoolingBlockWidth-fgkCoolingTubeSupportWidth) | |
1013 | - 0.5*fgkCoolingTubeSupportWidth, | |
1014 | - 0.5*fgkCoolingTubeSupportHeight); | |
1015 | localcoolingtubevect[0][1] = new TVector3(localcoolingtubevect[0][0]->X(), | |
1016 | localcoolingtubevect[0][0]->Y()+0.5*(fgkSSDSensorLength | |
1017 | - 2.0*fgkSSDModuleStiffenerPosition[1] | |
1018 | - 2.0*fgkSSDCoolingBlockWidth-fgkCoolingTubeSupportWidth) | |
1019 | + fgkCoolingTubeSupportWidth, | |
1020 | localcoolingtubevect[0][0]->Z()); | |
1021 | localcoolingtubevect[1][0] = new TVector3(-localcoolingtubevect[0][0]->X() | |
1022 | + fgkCarbonFiberTriangleLength, | |
1023 | localcoolingtubevect[0][0]->Y(), | |
1024 | localcoolingtubevect[0][0]->Z()); | |
1025 | localcoolingtubevect[1][1] = new TVector3(-localcoolingtubevect[0][1]->X() | |
1026 | + fgkCarbonFiberTriangleLength, | |
1027 | localcoolingtubevect[0][1]->Y(), | |
1028 | localcoolingtubevect[0][1]->Z()); | |
1029 | localcoolingtubevect[2][0] = new TVector3(-0.5*(fgkCoolingTubeSeparation | |
1030 | - fgkCarbonFiberTriangleLength), | |
1031 | - (2.0*fgkSSDSensorLength-fgkSSDSensorOverlap)+ | |
1032 | fgkSSDModuleStiffenerPosition[1]+fgkSSDStiffenerWidth | |
1033 | + 0.5*fgkSSDFlexHoleLength+2.*fgkCarbonFiberJunctionWidth | |
1034 | - 0.5*(fgkCarbonFiberLowerSupportWidth | |
1035 | + fgkSSDSensorCenterSupportLength | |
1036 | - fgkSSDSensorCenterSupportThickness[0]) | |
1037 | + fgkSSDModuleStiffenerPosition[1] | |
1038 | - 0.5*(fgkSSDModuleStiffenerPosition[1]-fgkSSDSensorOverlap), | |
1039 | - 0.5*fgkCoolingTubeSupportHeight); | |
1040 | localcoolingtubevect[2][1] = new TVector3(-localcoolingtubevect[2][0]->X() | |
1041 | + fgkCarbonFiberTriangleLength, | |
1042 | localcoolingtubevect[2][0]->Y(), | |
1043 | localcoolingtubevect[2][0]->Z()); | |
1044 | localcoolingtubevect[3][0] = new TVector3(-0.5*(fgkCoolingTubeSeparation | |
1045 | - fgkCarbonFiberTriangleLength), | |
1046 | - (2.0*fgkSSDSensorLength-fgkSSDSensorOverlap)+ | |
1047 | fgkSSDModuleStiffenerPosition[1]+fgkSSDStiffenerWidth | |
1048 | + 0.5*fgkSSDFlexHoleLength+2.*fgkCarbonFiberJunctionWidth | |
1049 | - 0.5*(fgkCarbonFiberLowerSupportWidth | |
1050 | + fgkSSDSensorCenterSupportLength | |
1051 | - fgkSSDSensorCenterSupportThickness[0]) | |
1052 | + fgkSSDSensorLength | |
1053 | - 0.5*fgkSSDModuleStiffenerPosition[1], | |
1054 | - 0.5*fgkCoolingTubeSupportHeight); | |
1055 | localcoolingtubevect[3][1] = new TVector3(-localcoolingtubevect[3][0]->X() | |
1056 | + fgkCarbonFiberTriangleLength, | |
1057 | localcoolingtubevect[3][0]->Y(), | |
1058 | - 0.5*fgkCoolingTubeSupportHeight); | |
1059 | for(Int_t i=0; i<4; i++) | |
1060 | for(Int_t j=0; j<2; j++){ | |
1061 | localcoolingtubetrans[i][j] = | |
1062 | new TGeoTranslation(localcoolingtubevect[i][j]->X(), | |
1063 | localcoolingtubevect[i][j]->Y(), | |
1064 | localcoolingtubevect[i][j]->Z()); | |
1065 | fcoolingtubematrix[i][j] = new TGeoHMatrix((*localcoolingtubetrans[i][j]) | |
1066 | * (*localcoolingtuberot)); | |
1067 | } | |
1068 | ///////////////////////////////////////////////////////////// | |
1069 | // SSD End Ladder Cooling Tube Transformations | |
1070 | ///////////////////////////////////////////////////////////// | |
1071 | TGeoRotation* localendlladdercoolingtuberot = new TGeoRotation(); | |
1072 | localendlladdercoolingtuberot->SetAngles(0.,90.,0.); | |
1073 | TGeoTranslation** localendlladdercoolingtubetrans[2]; | |
1074 | localendlladdercoolingtubetrans[0] = new TGeoTranslation*[6]; | |
1075 | localendlladdercoolingtubetrans[1] = new TGeoTranslation*[4]; | |
1076 | for(Int_t i=0; i<2; i++) | |
1077 | for(Int_t j=0; j<(i==0?6:4); j++) | |
1078 | localendlladdercoolingtubetrans[i][j] = new TGeoTranslation(); | |
1079 | localendlladdercoolingtubetrans[0][0]->SetTranslation(-(fgkCoolingTubeSupportLength | |
1080 | - fgkCoolingTubeSupportRmax) | |
1081 | + fgkCarbonFiberJunctionLength, | |
1082 | 0.5*(fgkEndLadderMountingBlockPosition[0] | |
1083 | - fgkendladdercoolingsupportdistance[0]), | |
1084 | - 0.5*fgkCoolingTubeSupportHeight); | |
1085 | localendlladdercoolingtubetrans[0][1]->SetTranslation((fgkCoolingTubeSupportLength | |
1086 | - fgkCoolingTubeSupportRmax) | |
1087 | - fgkCarbonFiberJunctionLength | |
1088 | + fgkCarbonFiberTriangleLength, | |
1089 | 0.5*(fgkEndLadderMountingBlockPosition[0] | |
1090 | - fgkendladdercoolingsupportdistance[0]), | |
1091 | - 0.5*fgkCoolingTubeSupportHeight); | |
1092 | localendlladdercoolingtubetrans[0][2]->SetTranslation(-(fgkCoolingTubeSupportLength | |
1093 | - fgkCoolingTubeSupportRmax) | |
1094 | + fgkCarbonFiberJunctionLength, | |
1095 | fgkEndLadderMountingBlockPosition[0] | |
1096 | - fgkendladdercoolingsupportdistance[0] | |
1097 | + 0.5*(fgkendladdercoolingsupportdistance[0] | |
1098 | + fgkendladdercoolingsupportdistance[1] | |
1099 | + fgkCoolingTubeSupportWidth), | |
1100 | - 0.5*fgkCoolingTubeSupportHeight); | |
1101 | localendlladdercoolingtubetrans[0][3]->SetTranslation((fgkCoolingTubeSupportLength | |
1102 | - fgkCoolingTubeSupportRmax) | |
1103 | - fgkCarbonFiberJunctionLength | |
1104 | + fgkCarbonFiberTriangleLength, | |
1105 | fgkEndLadderMountingBlockPosition[0] | |
1106 | - fgkendladdercoolingsupportdistance[0] | |
1107 | + 0.5*(fgkendladdercoolingsupportdistance[0] | |
1108 | + fgkendladdercoolingsupportdistance[1] | |
1109 | + fgkCoolingTubeSupportWidth), | |
1110 | - 0.5*fgkCoolingTubeSupportHeight); | |
1111 | localendlladdercoolingtubetrans[0][4]->SetTranslation(-(fgkCoolingTubeSupportLength | |
1112 | - fgkCoolingTubeSupportRmax) | |
1113 | + fgkCarbonFiberJunctionLength, | |
1114 | fgkEndLadderCarbonFiberLowerJunctionLength[0] | |
1115 | - 0.50 * (fgkEndLadderCarbonFiberLowerJunctionLength[0] | |
1116 | - fgkEndLadderMountingBlockPosition[0] | |
1117 | - fgkendladdercoolingsupportdistance[1] | |
1118 | - fgkCoolingTubeSupportWidth), | |
1119 | - 0.5*fgkCoolingTubeSupportHeight); | |
1120 | localendlladdercoolingtubetrans[0][5]->SetTranslation((fgkCoolingTubeSupportLength | |
1121 | - fgkCoolingTubeSupportRmax) | |
1122 | - fgkCarbonFiberJunctionLength | |
1123 | + fgkCarbonFiberTriangleLength, | |
1124 | fgkEndLadderCarbonFiberLowerJunctionLength[0] | |
1125 | - 0.50 * (fgkEndLadderCarbonFiberLowerJunctionLength[0] | |
1126 | - fgkEndLadderMountingBlockPosition[0] | |
1127 | - fgkendladdercoolingsupportdistance[1] | |
1128 | - fgkCoolingTubeSupportWidth), | |
1129 | - 0.5*fgkCoolingTubeSupportHeight); | |
1130 | localendlladdercoolingtubetrans[1][0]->SetTranslation(-(fgkCoolingTubeSupportLength | |
1131 | - fgkCoolingTubeSupportRmax) | |
1132 | + fgkCarbonFiberJunctionLength, | |
1133 | - 0.50 * (fgkMountingBlockToSensorSupport | |
1134 | - 0.50 * (fgkSSDFlexHoleWidth-fgkSSDSensorSideSupportWidth) | |
1135 | - fgkSSDStiffenerWidth-fgkSSDModuleStiffenerPosition[1] | |
1136 | + fgkSSDSensorOverlap | |
1137 | + fgkEndLadderCarbonFiberLowerJunctionLength[1] | |
1138 | - fgkendladdercoolingsupportdistance[2] | |
1139 | - fgkEndLadderMountingBlockPosition[1] | |
1140 | - fgkCoolingTubeSupportWidth) | |
1141 | + fgkEndLadderCarbonFiberLowerJunctionLength[1] | |
1142 | - fgkendladdercoolingsupportdistance[2] | |
1143 | - fgkCoolingTubeSupportWidth, | |
1144 | - 0.5*fgkCoolingTubeSupportHeight); | |
1145 | localendlladdercoolingtubetrans[1][1]->SetTranslation((fgkCoolingTubeSupportLength | |
1146 | - fgkCoolingTubeSupportRmax) | |
1147 | - fgkCarbonFiberJunctionLength | |
1148 | + fgkCarbonFiberTriangleLength, | |
1149 | - 0.50 * (fgkMountingBlockToSensorSupport | |
1150 | - 0.50 * (fgkSSDFlexHoleWidth-fgkSSDSensorSideSupportWidth) | |
1151 | - fgkSSDStiffenerWidth-fgkSSDModuleStiffenerPosition[1] | |
1152 | + fgkSSDSensorOverlap | |
1153 | + fgkEndLadderCarbonFiberLowerJunctionLength[1] | |
1154 | - fgkendladdercoolingsupportdistance[2] | |
1155 | - fgkEndLadderMountingBlockPosition[1] | |
1156 | - fgkCoolingTubeSupportWidth) | |
1157 | + fgkEndLadderCarbonFiberLowerJunctionLength[1] | |
1158 | - fgkendladdercoolingsupportdistance[2] | |
1159 | - fgkCoolingTubeSupportWidth, | |
1160 | - 0.5*fgkCoolingTubeSupportHeight); | |
1161 | localendlladdercoolingtubetrans[1][2]->SetTranslation(-(fgkCoolingTubeSupportLength | |
1162 | - fgkCoolingTubeSupportRmax) | |
1163 | + fgkCarbonFiberJunctionLength, | |
1164 | fgkEndLadderCarbonFiberLowerJunctionLength[1] | |
1165 | - 0.5*fgkendladdercoolingsupportdistance[2], | |
1166 | - 0.5*fgkCoolingTubeSupportHeight); | |
1167 | localendlladdercoolingtubetrans[1][3]->SetTranslation((fgkCoolingTubeSupportLength | |
1168 | - fgkCoolingTubeSupportRmax) | |
1169 | - fgkCarbonFiberJunctionLength | |
1170 | + fgkCarbonFiberTriangleLength, | |
1171 | fgkEndLadderCarbonFiberLowerJunctionLength[1] | |
1172 | - 0.5*fgkendladdercoolingsupportdistance[2], | |
1173 | - 0.5*fgkCoolingTubeSupportHeight); | |
1174 | fendladdercoolingtubematrix[0] = new TGeoHMatrix*[6]; | |
1175 | fendladdercoolingtubematrix[1] = new TGeoHMatrix*[4]; | |
1176 | for(Int_t i=0; i<2; i++) | |
1177 | for(Int_t j=0; j<(i==0?6:4); j++){ | |
1178 | fendladdercoolingtubematrix[i][j] = new TGeoHMatrix(*localendlladdercoolingtuberot); | |
1179 | fendladdercoolingtubematrix[i][j]->MultiplyLeft(localendlladdercoolingtubetrans[i][j]); | |
1180 | } | |
1181 | ///////////////////////////////////////////////////////////// | |
1182 | // SSD Hybrid Components Transformations | |
1183 | ///////////////////////////////////////////////////////////// | |
1184 | const Int_t khybridmatrixnumber = 3; | |
1185 | TGeoTranslation* localhybridtrans[khybridmatrixnumber]; | |
1186 | localhybridtrans[0] = new TGeoTranslation(0.5*fgkSSDStiffenerLength, | |
1187 | 0.5*fgkSSDStiffenerWidth, | |
1188 | 0.5*fgkSSDStiffenerHeight); | |
1189 | localhybridtrans[1] = new TGeoTranslation(fgkSSDModuleStiffenerPosition[0], | |
1190 | fgkSSDModuleStiffenerPosition[1],0.0); | |
1191 | ||
1192 | localhybridtrans[2] = new TGeoTranslation( | |
1193 | - 0.5*(fgkSSDSensorWidth-fgkCarbonFiberTriangleLength), | |
1194 | - (2.*fgkSSDSensorLength-fgkSSDSensorOverlap)+ | |
1195 | fgkSSDModuleStiffenerPosition[1]+fgkSSDStiffenerWidth | |
1196 | + 0.5*fgkSSDFlexHoleLength+2.*fgkCarbonFiberJunctionWidth | |
1197 | - 0.5*(fgkCarbonFiberLowerSupportWidth+fgkSSDSensorCenterSupportLength | |
1198 | - fgkSSDSensorCenterSupportThickness[0]), | |
1199 | - (fgkSSDModuleCoolingBlockToSensor+0.5*fgkCoolingTubeSupportHeight | |
1200 | - fgkSSDSensorHeight-fgkSSDChipCablesHeight[3]-fgkSSDChipHeight | |
1201 | - fgkSSDModuleVerticalDisalignment)); | |
1202 | fhybridmatrix = new TGeoHMatrix(); | |
1203 | for(Int_t i=0; i<khybridmatrixnumber; i++) fhybridmatrix->MultiplyLeft(localhybridtrans[i]); | |
1204 | ///////////////////////////////////////////////////////////// | |
1205 | // SSD Cooling Block Transformations | |
1206 | ///////////////////////////////////////////////////////////// | |
1207 | const Int_t kcoolingblockmatrixnumber = 4; | |
1208 | TGeoTranslation* localcoolingblocktrans[kcoolingblockmatrixnumber]; | |
1209 | localcoolingblocktrans[0] = new TGeoTranslation(-2.*(fgkCoolingTubeSupportRmax | |
1210 | - fgkCoolingTubeSupportRmin),0.0, | |
1211 | 0.5*(fgkSSDCoolingBlockHoleCenter+fgkCoolingTubeRmax)); | |
1212 | localcoolingblocktrans[1] = new TGeoTranslation(0.5*fgkSSDStiffenerLength | |
1213 | - 0.5*fgkSSDModuleSensorSupportDistance-fgkSSDCoolingBlockLength, | |
1214 | 0.0,fgkSSDStiffenerHeight); | |
1215 | localcoolingblocktrans[2] = new TGeoTranslation(*localhybridtrans[1]); | |
1216 | localcoolingblocktrans[3] = new TGeoTranslation(*localhybridtrans[2]); | |
1217 | fcoolingblocksystematrix = new TGeoHMatrix(); | |
1218 | for(Int_t i=0; i<kcoolingblockmatrixnumber; i++) | |
1219 | fcoolingblocksystematrix->MultiplyLeft(localcoolingblocktrans[i]); | |
1220 | ///////////////////////////////////////////////////////////// | |
1221 | // SSD Stiffener Flex Transformations | |
1222 | ///////////////////////////////////////////////////////////// | |
1223 | const Int_t klocalflexmatrixnumber = 4; | |
1224 | TGeoCombiTrans** localflexmatrix[fgkflexnumber]; | |
1225 | for(Int_t i=0; i<fgkflexnumber; i++) | |
1226 | localflexmatrix[i] = new TGeoCombiTrans*[klocalflexmatrixnumber]; | |
1227 | for(Int_t i=0; i<fgkflexnumber; i++) | |
1228 | for(Int_t j =0; j<klocalflexmatrixnumber; j++) | |
1229 | localflexmatrix[i][j] = new TGeoCombiTrans(); | |
1230 | Double_t ssdstiffenerseparation = fgkSSDSensorLength | |
1231 | - 2.*fgkSSDModuleStiffenerPosition[1] | |
1232 | - fgkSSDStiffenerWidth; | |
1233 | localflexmatrix[0][0]->SetTranslation(-fgkSSDFlexLength[0] | |
1234 | +0.5*fgkSSDStiffenerLength, | |
1235 | 0.5*fgkSSDStiffenerWidth, | |
1236 | -0.5*fgkSSDStiffenerHeight | |
1237 | -0.5*fgkSSDFlexHeight[0]); | |
1238 | localflexmatrix[1][0]->SetTranslation(-(fgkSSDStiffenerLength-fgkSSDFlexLength[0]) | |
1239 | +0.5*fgkSSDStiffenerLength,ssdstiffenerseparation | |
1240 | -0.5*fgkSSDStiffenerWidth, | |
1241 | -0.5*fgkSSDStiffenerHeight | |
1242 | -0.5*fgkSSDFlexHeight[0]); | |
1243 | TGeoRotation* localflexrot = new TGeoRotation(); | |
1244 | localflexrot->SetAngles(180.,0.,0.); | |
1245 | localflexmatrix[1][0]->SetRotation(localflexrot); | |
1246 | for(Int_t i=0; i<fgkflexnumber; i++) | |
1247 | for(Int_t j =1; j<klocalflexmatrixnumber; j++) | |
1248 | localflexmatrix[i][j]->SetTranslation(*localhybridtrans[j-1]); | |
1249 | for(Int_t i=0; i<fgkflexnumber; i++){ | |
1250 | fstiffenerflexmatrix[i] = new TGeoHMatrix(); | |
1251 | for(Int_t j =0; j<klocalflexmatrixnumber; j++) | |
1252 | fstiffenerflexmatrix[i]->MultiplyLeft(localflexmatrix[i][j]); | |
1253 | } | |
1254 | ///////////////////////////////////////////////////////////// | |
1255 | // SSD End Flex Transformations | |
1256 | ///////////////////////////////////////////////////////////// | |
1257 | TGeoRotation* localendflexrot = new TGeoRotation(); | |
1258 | localendflexrot->SetAngles(0.0,90.0,0.0); | |
1259 | TGeoCombiTrans* localendflexmatrix = new TGeoCombiTrans(); | |
1260 | Double_t ssdflexradiusmax = (fgkSSDFlexLength[3]-fgkSSDFlexLength[2]) | |
1261 | / TMath::Tan(fgkSSDFlexAngle*TMath::DegToRad()); | |
1262 | Double_t ssdflexboxlength = fgkSSDFlexFullLength-2.*fgkSSDFlexAngle | |
1263 | * TMath::DegToRad()*ssdflexradiusmax | |
1264 | - fgkSSDFlexLength[2]-TMath::Pi() | |
1265 | * fgkSSDStiffenerHeight-fgkSSDFlexLength[0] | |
1266 | - 0.1*fgkSSDFlexFullLength; | |
1267 | Double_t trans = ssdflexboxlength*CosD(2.*fgkSSDFlexAngle) | |
1268 | + (ssdflexradiusmax-fgkSSDStiffenerHeight)*SinD(2.*fgkSSDFlexAngle) | |
1269 | + fgkSSDFlexLength[2]; | |
1270 | localendflexmatrix->SetTranslation(fgkSSDFlexLength[0]-trans, | |
1271 | 0.5*fgkSSDFlexWidth[0], | |
1272 | 2.*fgkSSDStiffenerHeight | |
1273 | + 0.5*fgkSSDFlexHeight[0]); | |
1274 | localendflexmatrix->SetRotation(localendflexrot); | |
1275 | for(Int_t i=0; i<fgkflexnumber; i++) | |
1276 | fendflexmatrix[i] = new TGeoHMatrix((*fstiffenerflexmatrix[i])*(*localendflexmatrix)); | |
1277 | ///////////////////////////////////////////////////////////// | |
1278 | // End Ladder Carbon Fiber Junction | |
1279 | ///////////////////////////////////////////////////////////// | |
1280 | TGeoCombiTrans** localendladdercarbonfiberjunctionmatrix[fgkendlabbercarbonfiberjunctionumber]; | |
1281 | TGeoRotation** localendladdercarbonfiberjunctionrot[fgkendlabbercarbonfiberjunctionumber]; | |
1282 | TGeoTranslation** localendladdercarbonfiberjunctiontrans[fgkendlabbercarbonfiberjunctionumber]; | |
1283 | for(Int_t i=0; i<fgkendlabbercarbonfiberjunctionumber; i++){ | |
1284 | localendladdercarbonfiberjunctionmatrix[i] | |
1285 | = new TGeoCombiTrans*[fgkendladdercabonfiberjunctionmatrixnumber]; | |
1286 | localendladdercarbonfiberjunctionrot[i] | |
1287 | = new TGeoRotation*[fgkendladdercabonfiberjunctionmatrixnumber]; | |
1288 | localendladdercarbonfiberjunctiontrans[i] | |
1289 | = new TGeoTranslation*[fgkendladdercabonfiberjunctionmatrixnumber]; | |
1290 | fendladdercarbonfiberjunctionmatrix[i] | |
1291 | = new TGeoHMatrix*[fgkendladdercabonfiberjunctionmatrixnumber]; | |
1292 | } | |
1293 | for(Int_t i=0; i<fgkendlabbercarbonfiberjunctionumber; i++) | |
1294 | for(Int_t j=0; j<fgkendladdercabonfiberjunctionmatrixnumber; j++){ | |
1295 | localendladdercarbonfiberjunctionrot[i][j] = new TGeoRotation(); | |
1296 | localendladdercarbonfiberjunctiontrans[i][j] = new TGeoTranslation(); | |
1297 | } | |
1298 | for(Int_t i=0; i<fgkendlabbercarbonfiberjunctionumber; i++) | |
1299 | for(Int_t j=0; j<fgkendladdercabonfiberjunctionmatrixnumber; j++) | |
1300 | localendladdercarbonfiberjunctionrot[i][j]->SetAngles(120.*j,0.,0.); | |
1301 | for(Int_t i=0; i<fgkendlabbercarbonfiberjunctionumber; i++){ | |
1302 | localendladdercarbonfiberjunctiontrans[i][1]->SetTranslation(fgkCarbonFiberTriangleLength, | |
1303 | 0.0,0.0); | |
1304 | localendladdercarbonfiberjunctiontrans[i][2]->SetTranslation(fgkCarbonFiberTriangleLength | |
1305 | * CosD(fgkCarbonFiberTriangleAngle),fgkCarbonFiberTriangleLength | |
1306 | * SinD(fgkCarbonFiberTriangleAngle), | |
1307 | 0.5*(fgkEndLadderCarbonFiberLowerJunctionLength[i] | |
1308 | - fgkEndLadderCarbonFiberUpperJunctionLength[i])); | |
1309 | } | |
1310 | TGeoCombiTrans* localendladdercarbonfiberjunctionglobalmatrix[fgkendlabbercarbonfiberjunctionumber]; | |
1311 | TGeoRotation* localendladdercarbonfiberjunctionglobalrot[fgkendlabbercarbonfiberjunctionumber]; | |
1312 | TGeoTranslation* localendladdercarbonfiberjunctionglobaltrans[fgkendlabbercarbonfiberjunctionumber]; | |
1313 | for(Int_t i=0; i<fgkendlabbercarbonfiberjunctionumber; i++){ | |
1314 | localendladdercarbonfiberjunctionglobalrot[i] = new TGeoRotation(); | |
1315 | localendladdercarbonfiberjunctionglobaltrans[i] = new TGeoTranslation(); | |
1316 | localendladdercarbonfiberjunctionglobalrot[i]->SetAngles(0.0,90.0,0.0); | |
1317 | localendladdercarbonfiberjunctionglobaltrans[i]->SetTranslation(0.0, | |
1318 | 0.5*fgkEndLadderCarbonFiberLowerJunctionLength[i],0.0); | |
1319 | localendladdercarbonfiberjunctionglobalmatrix[i] = | |
1320 | new TGeoCombiTrans(*localendladdercarbonfiberjunctionglobaltrans[i], | |
1321 | *localendladdercarbonfiberjunctionglobalrot[i]); | |
1322 | } | |
1323 | for(Int_t i=0; i<fgkendlabbercarbonfiberjunctionumber; i++) | |
1324 | for(Int_t j=0; j<fgkendladdercabonfiberjunctionmatrixnumber; j++){ | |
1325 | localendladdercarbonfiberjunctionmatrix[i][j] = | |
1326 | new TGeoCombiTrans(*localendladdercarbonfiberjunctiontrans[i][j], | |
1327 | *localendladdercarbonfiberjunctionrot[i][j]); | |
1328 | fendladdercarbonfiberjunctionmatrix[i][j] = | |
1329 | new TGeoHMatrix((*localendladdercarbonfiberjunctionglobalmatrix[i]) | |
1330 | * (*localendladdercarbonfiberjunctionmatrix[i][j])); | |
1331 | } | |
1332 | ///////////////////////////////////////////////////////////// | |
1333 | // End Ladder Carbon Fiber Support | |
1334 | ///////////////////////////////////////////////////////////// | |
1335 | TGeoTranslation* localendladdercarbonfibertrans[fgkendladdercarbonfibermatrixnumber]; | |
1336 | for(Int_t i=0; i<fgkendladdercarbonfibermatrixnumber; i++){ | |
1337 | localendladdercarbonfibertrans[i] = new TGeoTranslation(); | |
1338 | localendladdercarbonfibertrans[i]->SetTranslation(0.0, | |
1339 | i==0 ? 0.0 :fgkCarbonFiberLowerSupportWidth,0.0); | |
1340 | fendladdercarbonfibermatrix[i] = new TGeoHMatrix*[fgkcarbonfibersupportnumber]; | |
1341 | } | |
1342 | for(Int_t i=0; i<fgkendladdercarbonfibermatrixnumber; i++) | |
1343 | for(Int_t j=0; j<fgkcarbonfibersupportnumber; j++) | |
1344 | fendladdercarbonfibermatrix[i][j] = | |
1345 | new TGeoHMatrix((*localendladdercarbonfibertrans[i]) | |
1346 | *(*fcarbonfibersupportmatrix[j])); | |
1347 | ///////////////////////////////////////////////////////////// | |
1348 | // End Ladder SSD Mounting Block | |
1349 | ///////////////////////////////////////////////////////////// | |
1350 | for(Int_t i=0; i<fgkendladdermountingblocknumber; i++) | |
1351 | fendladdermountingblockcombitrans[i] = new TGeoCombiTrans(); | |
1352 | for(Int_t i=0; i<fgkendladdermountingblocknumber; i++) | |
1353 | fendladdermountingblockcombitrans[i]->SetTranslation(- 0.25*(fgkSSDMountingBlockLength[0] | |
1354 | + fgkSSDMountingBlockLength[1]) | |
1355 | + 0.5*fgkCarbonFiberTriangleLength, | |
1356 | fgkEndLadderMountingBlockPosition[i], | |
1357 | - fgkSSDMountingBlockHeight[1] | |
1358 | + 0.5*fgkSSDMountingBlockHeight[0]); | |
1359 | TGeoRotation* endladdermountingblockrot = new TGeoRotation(); | |
1360 | endladdermountingblockrot->SetAngles(0.,90.,0.); | |
1361 | for(Int_t i=0; i<fgkendladdermountingblocknumber; i++) | |
1362 | fendladdermountingblockcombitrans[i]->SetRotation(*endladdermountingblockrot); | |
1363 | ///////////////////////////////////////////////////////////// | |
1364 | // End Ladder SSD Mounting Block Clip Matrix | |
1365 | ///////////////////////////////////////////////////////////// | |
1366 | for(Int_t i=0; i<fgkendladdermountingblocknumber; i++) | |
1367 | fendladdermountingblockclipmatrix[i] = new TGeoHMatrix*[2]; | |
1368 | ||
1369 | TGeoRotation* localendladdercliprot = new TGeoRotation(); | |
1370 | TGeoTranslation* localendladdercliptrans = new TGeoTranslation(); | |
1371 | localendladdercliptrans->SetTranslation(-0.5*(fgkSSDMountingBlockLength[0] | |
1372 | - fgkSSDMountingBlockLength[1]) | |
1373 | + fgkSSDMountingBlockLength[0],0.,0.); | |
1374 | localendladdercliprot->SetAngles(90.,180.,-90.); | |
1375 | TGeoCombiTrans* localendladderclipcombitrans = | |
1376 | new TGeoCombiTrans(*localendladdercliptrans,*localendladdercliprot); | |
1377 | for(Int_t i=0; i<fgkendladdermountingblocknumber; i++) | |
1378 | for(Int_t j=0; j<2; j++){ | |
1379 | fendladdermountingblockclipmatrix[i][j] = | |
1380 | new TGeoHMatrix(*fendladdermountingblockcombitrans[i]); | |
1381 | if(j!=0) fendladdermountingblockclipmatrix[i][j]->Multiply(localendladderclipcombitrans); | |
1382 | } | |
1383 | ///////////////////////////////////////////////////////////// | |
1384 | // End Ladder Carbon Fiber Lower Support | |
1385 | ///////////////////////////////////////////////////////////// | |
1386 | for(Int_t i=0; i<fgkendladderlowersuppnumber; i++) | |
1387 | fendladderlowersupptrans[i] = | |
1388 | new TGeoTranslation(0.0,(1-i)*(fgkEndLadderMountingBlockPosition[i] | |
1389 | + 0.5*fgkSSDMountingBlockWidth), | |
1390 | - 0.5*fgkCarbonFiberLowerSupportHeight); | |
1391 | fendladderlowersupptrans[2] = new TGeoTranslation(0.0, | |
1392 | fgkCarbonFiberLowerSupportVolumePosition[1] | |
1393 | + fgkCarbonFiberLowerSupportVolumePosition[0], | |
1394 | 0.0); | |
1395 | fendladderlowersupptrans[2]->Add(fendladderlowersupptrans[1]); | |
1396 | ///////////////////////////////////////////////////////////// | |
1397 | // Matrix for positioning Ladder into mother volume | |
1398 | ///////////////////////////////////////////////////////////// | |
1399 | TGeoHMatrix** ladderglobalmatrix[fgkladdernumber]; | |
1400 | for(Int_t i=0; i<fgkladdernumber; i++) | |
1401 | ladderglobalmatrix[i] = new TGeoHMatrix*[fgkladdernumber]; | |
1402 | TGeoRotation* localladdermotherrot = new TGeoRotation(); | |
1403 | localladdermotherrot->SetAngles(0.,90.,0.); | |
1404 | TGeoTranslation* localladdermothertrans[fgkladdernumber]; | |
1405 | TGeoCombiTrans* localladdermothercombitrans[fgkladdernumber]; | |
1406 | for(Int_t i=0; i<fgkladdernumber; i++){ | |
1407 | localladdermothertrans[i] = new TGeoTranslation(0., | |
1408 | - fgkEndLadderCarbonFiberLowerJunctionLength[1] | |
1409 | + fgkEndLadderCarbonFiberLowerJunctionLength[0] | |
1410 | + (i==0?fgkSSDLay5SensorsNumber:fgkSSDLay6SensorsNumber) | |
1411 | * fgkCarbonFiberJunctionWidth,0.); | |
1412 | localladdermothercombitrans[i] = new TGeoCombiTrans(*localladdermothertrans[i], | |
1413 | *localladdermotherrot); | |
1414 | ladderglobalmatrix[0][i] = new TGeoHMatrix(*localladdermothercombitrans[i]); | |
1415 | ladderglobalmatrix[1][i] = new TGeoHMatrix(ladderglobalmatrix[0][i]->Inverse()); | |
1416 | } | |
1417 | ///////////////////////////////////////////////////////////// | |
1418 | // Ladder Cables Matrices | |
1419 | ///////////////////////////////////////////////////////////// | |
1420 | Double_t ssdflexradius = fgkSSDStiffenerHeight+2*fgkSSDFlexHeight[0] | |
1421 | + fgkSSDFlexHeight[1]; | |
1422 | Double_t ssdladdercabletransx[3]; | |
1423 | ssdladdercabletransx[0] = (ssdflexradiusmax-fgkSSDFlexHeight[1]-ssdflexradius) | |
1424 | * SinD(2.*fgkSSDFlexAngle) | |
1425 | * CosD(2.*fgkSSDFlexAngle); | |
1426 | ssdladdercabletransx[1] = ((ssdflexradiusmax-fgkSSDFlexHeight[1]-ssdflexradius) | |
1427 | - ssdladdercabletransx[0] | |
1428 | / SinD(2.*fgkSSDFlexAngle)) | |
1429 | * CosD(fgkSSDFlexAngle); | |
1430 | ssdladdercabletransx[2] = (fgkSSDFlexFullLength-2.*fgkSSDFlexAngle | |
1431 | * TMath::DegToRad()*ssdflexradiusmax | |
1432 | - fgkSSDFlexLength[2]-TMath::Pi() | |
1433 | * fgkSSDStiffenerHeight-fgkSSDFlexLength[0] | |
1434 | - fgkSSDLadderCableWidth) | |
1435 | * CosD(2.*fgkSSDFlexAngle); | |
1436 | Double_t ssdladdercabletransz[3] = {ssdladdercabletransx[0] | |
1437 | * TanD(2.*fgkSSDFlexAngle), | |
1438 | ssdladdercabletransx[1] | |
1439 | * TanD(fgkSSDFlexAngle), | |
1440 | ssdladdercabletransx[2] | |
1441 | * TanD(2.*fgkSSDFlexAngle)}; | |
1442 | TGeoRotation* localladdercablerot[3]; | |
1443 | for(Int_t i=0; i<3; i++) localladdercablerot[i] = new TGeoRotation(); | |
1444 | localladdercablerot[0]->SetAngles(90.,0.,0.); | |
1445 | localladdercablerot[1]->SetAngles(90.,60.,-90.); | |
1446 | localladdercablerot[2]->SetRotation((*localladdercablerot[1]) | |
1447 | * (*localladdercablerot[0])); | |
1448 | //////////////////////////////////////////// | |
1449 | // LocalLadderCableCombiTransMatrix | |
1450 | //////////////////////////////////////////// | |
1451 | const Int_t klocalladdersidecablesnumber = 2; | |
1452 | const Int_t klocalladdercombitransnumber = 5; | |
1453 | TGeoCombiTrans** localladdercablecombitransmatrix[klocalladdersidecablesnumber]; | |
1454 | for(Int_t i=0; i<klocalladdersidecablesnumber; i++) | |
1455 | localladdercablecombitransmatrix[i] = | |
1456 | new TGeoCombiTrans*[klocalladdercombitransnumber]; | |
1457 | /////////////////////////////////////////// | |
1458 | // Left Side Ladder Cables Transformations | |
1459 | /////////////////////////////////////////// | |
1460 | localladdercablecombitransmatrix[0][0] = | |
1461 | new TGeoCombiTrans(-0.5*fgkCarbonFiberTriangleLength, | |
1462 | 0.,0.,NULL); | |
1463 | localladdercablecombitransmatrix[0][1] = | |
1464 | new TGeoCombiTrans(-0.5*(fgkSSDSensorWidth-fgkCarbonFiberTriangleLength), | |
1465 | - (2.*fgkSSDSensorLength-fgkSSDSensorOverlap)+ | |
1466 | fgkSSDModuleStiffenerPosition[1]+fgkSSDStiffenerWidth | |
1467 | + 0.5*fgkSSDFlexHoleLength+2.*fgkCarbonFiberJunctionWidth | |
1468 | - 0.5*(fgkCarbonFiberLowerSupportWidth | |
1469 | + fgkSSDSensorCenterSupportLength | |
1470 | - fgkSSDSensorCenterSupportThickness[0]), | |
1471 | - (fgkSSDModuleCoolingBlockToSensor | |
1472 | + 0.5*fgkCoolingTubeSupportHeight | |
1473 | - fgkSSDSensorHeight-fgkSSDChipCablesHeight[3] | |
1474 | - fgkSSDChipHeight),NULL); | |
1475 | localladdercablecombitransmatrix[0][2] = | |
1476 | new TGeoCombiTrans(fgkSSDModuleStiffenerPosition[0], | |
1477 | fgkSSDModuleStiffenerPosition[1],0.,0); | |
1478 | localladdercablecombitransmatrix[0][3] = new TGeoCombiTrans( | |
1479 | 0.5*(fgkSSDStiffenerLength+fgkSSDChipNumber*fgkSSDChipLength | |
1480 | +(fgkSSDChipNumber-1)*fgkSSDChipSeparationLength), | |
1481 | fgkSSDSensorLength-2.*fgkSSDModuleStiffenerPosition[1] | |
1482 | - fgkSSDStiffenerWidth,- 0.5*fgkSSDChipHeight, | |
1483 | new TGeoRotation("",180.,0.,0.)); | |
1484 | localladdercablecombitransmatrix[0][4] = | |
1485 | new TGeoCombiTrans(-ssdladdercabletransx[0] | |
1486 | - ssdladdercabletransx[1]-ssdladdercabletransx[2] | |
1487 | + fgkSSDFlexLength[0]-fgkSSDFlexLength[2], | |
1488 | 0., | |
1489 | 0.5*fgkSSDFlexHeight[0]+2.*(fgkSSDFlexHeight[0] | |
1490 | + fgkSSDFlexHeight[1])+2.*fgkSSDStiffenerHeight | |
1491 | + ssdladdercabletransz[0]-ssdladdercabletransz[1] | |
1492 | + ssdladdercabletransz[2],localladdercablerot[2]); | |
1493 | /////////////////////////////////////////// | |
1494 | // Rigth Side Ladder Cables Transformations | |
1495 | /////////////////////////////////////////// | |
1496 | TGeoCombiTrans* localladdercablessdmodulematrix = | |
1497 | new TGeoCombiTrans(0.5*(fgkSSDStiffenerLength-fgkSSDChipNumber*fgkSSDChipLength | |
1498 | - (fgkSSDChipNumber-1)*fgkSSDChipSeparationLength), | |
1499 | fgkSSDStiffenerWidth, | |
1500 | - 0.5*fgkSSDFlexHeight[0],NULL); | |
1501 | for(Int_t i=0; i<klocalladdercombitransnumber; i++) | |
1502 | localladdercablecombitransmatrix[1][i] = | |
1503 | (i!=3 ? new TGeoCombiTrans(*localladdercablecombitransmatrix[0][i]): | |
1504 | new TGeoCombiTrans(*localladdercablessdmodulematrix)); | |
1505 | /////////////////////////////////////////// | |
1506 | // Setting LadderCableHMatrix | |
1507 | /////////////////////////////////////////// | |
1508 | Int_t beamaxistrans[2][3]; | |
1509 | beamaxistrans[0][0] = fgkSSDLay5SensorsNumber/2; | |
1510 | beamaxistrans[0][1] = beamaxistrans[0][0]+1; | |
1511 | beamaxistrans[0][2] = beamaxistrans[0][0]-1; | |
1512 | beamaxistrans[1][0] = (fgkSSDLay6SensorsNumber-1)/2; | |
1513 | beamaxistrans[1][1] = beamaxistrans[1][0]+1; | |
1514 | beamaxistrans[1][2] = beamaxistrans[1][0]; | |
1515 | TGeoHMatrix** localladdercablehmatrix[fgkladdercablesnumber]; | |
1516 | TGeoRotation* laddercablerot = new TGeoRotation(); | |
1517 | TGeoTranslation* laddercabletrans = new TGeoTranslation(); | |
1518 | TGeoCombiTrans* laddercablecombitrans = new TGeoCombiTrans(); | |
1519 | Double_t* laddercabletransvector; | |
1520 | for(Int_t i=0; i<fgkladdercablesnumber; i++){ | |
1521 | localladdercablehmatrix[i] = new TGeoHMatrix*[klocalladdersidecablesnumber]; | |
1522 | fladdercablematrix[i] = new TGeoHMatrix*[fgkladdercablematrixnumber]; | |
1523 | } | |
1524 | for(Int_t i=0; i<fgkladdercablesnumber; i++){ | |
1525 | for(Int_t j=0; j<klocalladdersidecablesnumber; j++){ | |
1526 | localladdercablehmatrix[i][j] = new TGeoHMatrix(); | |
1527 | for(Int_t k=0; k<klocalladdercombitransnumber; k++){ | |
1528 | localladdercablehmatrix[i][j]->MultiplyLeft( | |
1529 | localladdercablecombitransmatrix[j][klocalladdercombitransnumber-k-1]); | |
1530 | } | |
1531 | laddercablerot->SetMatrix(localladdercablehmatrix[i][j]->GetRotationMatrix()); | |
1532 | laddercabletransvector = localladdercablehmatrix[i][j]->GetTranslation(); | |
1533 | laddercabletrans->SetTranslation(laddercabletransvector[0], | |
1534 | laddercabletransvector[1] | |
1535 | + (j==0 ? beamaxistrans[i][0] : 0.) | |
1536 | * fgkCarbonFiberJunctionWidth, | |
1537 | laddercabletransvector[2]); | |
1538 | laddercablecombitrans->SetRotation(*laddercablerot); | |
1539 | laddercablecombitrans->SetTranslation(*laddercabletrans); | |
1540 | fladdercablematrix[i][j] = new TGeoHMatrix(*laddercablecombitrans); | |
1541 | } | |
1542 | fladdercablematrix[i][2] = | |
1543 | AddTranslationToHMatrix(fladdercablematrix[i][1],0., | |
1544 | beamaxistrans[i][1]*fgkCarbonFiberJunctionWidth,0.); | |
1545 | fladdercablematrix[i][3] = | |
1546 | AddTranslationToHMatrix(fladdercablematrix[i][0],0., | |
1547 | beamaxistrans[i][2]*fgkCarbonFiberJunctionWidth,0.); | |
1548 | } | |
1549 | for(Int_t i=0; i<fgkladdercablesnumber; i++) | |
1550 | for(Int_t j=0; j<klocalladdercombitransnumber-1; j++) | |
1551 | fladdercablematrix[i][j]->MultiplyLeft(ladderglobalmatrix[1][i]); | |
1552 | /////////////////////////////////////////// | |
1553 | // Setting Ladder HMatrix | |
1554 | /////////////////////////////////////////// | |
1555 | Int_t ssdlaysensorsnumber[fgkladdernumber] = {fgkSSDLay5SensorsNumber, | |
1556 | fgkSSDLay6SensorsNumber}; | |
1557 | for(Int_t i=0; i<fgkladdernumber; i++){ | |
1558 | fladdermatrix[i] = new TGeoHMatrix*[ssdlaysensorsnumber[i]]; | |
1559 | for(Int_t j=0; j<ssdlaysensorsnumber[i]; j++){ | |
1560 | fladdermatrix[i][j] = new TGeoHMatrix(); | |
1561 | fladdermatrix[i][j]->SetDx(-0.5*fgkCarbonFiberTriangleLength); | |
1562 | fladdermatrix[i][j]->SetDy(fgkCarbonFiberJunctionWidth*j); | |
1563 | fladdermatrix[i][j]->MultiplyLeft(ladderglobalmatrix[1][i]); | |
1564 | } | |
1565 | } | |
1566 | /////////////////////////////////////////// | |
1567 | // Setting SSD Sensor Matrix | |
1568 | /////////////////////////////////////////// | |
1569 | TGeoCombiTrans* localssdsensorcombitrans[2]; | |
1570 | TGeoRotation* localssdsensorrot = new TGeoRotation(); | |
1571 | localssdsensorrot->SetAngles(0.,90.,0.); | |
1572 | TGeoTranslation* localssdsensortrans[2]; | |
1573 | for(Int_t i=0; i<2; i++) localssdsensortrans[i] = new TGeoTranslation(); | |
1574 | localssdsensortrans[0]->SetTranslation(0.5*fgkCarbonFiberTriangleLength, | |
1575 | fgkCarbonFiberJunctionWidth | |
1576 | - fgkCarbonFiberLowerSupportWidth | |
1577 | - fgkLowerSupportToSensorZ, | |
1578 | 0.5*fgkSSDSensorHeight-0.5*fgkCoolingTubeSupportHeight | |
1579 | - fgkSSDModuleCoolingBlockToSensor | |
1580 | + (fgkSSDSensorSideSupportHeight[1] | |
1581 | - fgkSSDSensorSideSupportHeight[0])); | |
1582 | localssdsensortrans[1]->SetTranslation(0.5*fgkCarbonFiberTriangleLength, | |
1583 | fgkCarbonFiberJunctionWidth | |
1584 | - fgkCarbonFiberLowerSupportWidth | |
1585 | - fgkLowerSupportToSensorZ, | |
1586 | 0.5*fgkSSDSensorHeight-0.5*fgkCoolingTubeSupportHeight | |
1587 | -fgkSSDModuleCoolingBlockToSensor); | |
1588 | for(Int_t i=0; i<2; i++) | |
1589 | localssdsensorcombitrans[i] = new TGeoCombiTrans(*localssdsensortrans[i], | |
1590 | *localssdsensorrot); | |
1591 | for(Int_t i=0; i<fgkladdernumber; i++){ | |
1592 | fssdsensormatrix[i] = new TGeoHMatrix*[ssdlaysensorsnumber[i]]; | |
1593 | for(Int_t j=0; j<ssdlaysensorsnumber[i]; j++){ | |
1594 | switch(i){ | |
1595 | case 0: //Ladder of Layer5 | |
1596 | fssdsensormatrix[i][j] = new TGeoHMatrix((*fladdermatrix[i][j]) | |
1597 | * ((j%2==0 ? *localssdsensorcombitrans[0] : | |
1598 | *localssdsensorcombitrans[1]))); | |
1599 | break; | |
1600 | case 1: //Ladder of Layer6 | |
1601 | fssdsensormatrix[i][j] = new TGeoHMatrix((*fladdermatrix[i][j]) | |
1602 | * ((j%2==0 ? *localssdsensorcombitrans[1] : | |
1603 | *localssdsensorcombitrans[0]))); | |
1604 | break; | |
1605 | } | |
1606 | } | |
1607 | } | |
1608 | ////////////////////////// | |
1609 | // Setting SSD End Ladder | |
1610 | ////////////////////////// | |
1611 | for(Int_t i=0; i<2; i++) fendladdersegmentmatrix[i] = new TGeoHMatrix*[2]; | |
1612 | for(Int_t i=0; i<2; i++){ | |
1613 | fendladdersegmentmatrix[0][i] = new TGeoHMatrix(); | |
1614 | fendladdersegmentmatrix[0][i]->SetDx(-0.5*fgkCarbonFiberTriangleLength); | |
1615 | fendladdersegmentmatrix[0][i]->SetDy(fgkCarbonFiberJunctionWidth*ssdlaysensorsnumber[i]); | |
1616 | fendladdersegmentmatrix[0][i]->MultiplyLeft(ladderglobalmatrix[1][i]); | |
1617 | fendladdersegmentmatrix[1][i] = new TGeoHMatrix(); | |
1618 | fendladdersegmentmatrix[1][i]->SetDx(-0.5*fgkCarbonFiberTriangleLength); | |
1619 | fendladdersegmentmatrix[1][i]->RotateZ(180.0); | |
1620 | fendladdersegmentmatrix[1][i]->MultiplyLeft(ladderglobalmatrix[1][i]); | |
1621 | } | |
1622 | ///////////////////////////////////////////////////// | |
1623 | // Setting the CombiTransformation to pass ITS center | |
1624 | ///////////////////////////////////////////////////// | |
1625 | Double_t itscentertransz[fgklayernumber]; | |
1626 | itscentertransz[0] = fgkSSDLay5LadderLength | |
1627 | - fgkLay5CenterITSPosition; | |
1628 | itscentertransz[1] = fgkSSDLay6LadderLength | |
1629 | - fgkLay6CenterITSPosition; | |
1630 | Double_t itssensortransy = fgkSSDModuleCoolingBlockToSensor | |
1631 | + 0.5*fgkCoolingTubeSupportHeight; | |
1632 | TGeoRotation* itscenterrot[3]; | |
1633 | for(Int_t i=0; i<fgklayernumber; i++) itscenterrot[i] = new TGeoRotation(); | |
1634 | itscenterrot[0]->SetAngles(90.,180.,-90.); | |
1635 | itscenterrot[1]->SetAngles(0.,90.,0.); | |
1636 | itscenterrot[2] = new TGeoRotation((*itscenterrot[1])*(*itscenterrot[0])); | |
1637 | TGeoCombiTrans* itscentercombitrans[fgklayernumber]; | |
1638 | for(Int_t i=0; i<fgklayernumber; i++) | |
1639 | itscentercombitrans[i] = new TGeoCombiTrans(0., | |
1640 | itssensortransy, | |
1641 | fgkEndLadderCarbonFiberLowerJunctionLength[1] | |
1642 | - itscentertransz[i],itscenterrot[2]); | |
1643 | TGeoRotation** locallayerrot[fgklayernumber]; | |
1644 | TGeoTranslation** locallayertrans[fgklayernumber]; | |
1645 | TGeoCombiTrans** locallayercombitrans[fgklayernumber]; | |
1646 | TGeoTranslation* localbeamaxistrans[fgklayernumber]; | |
1647 | localbeamaxistrans[0] = new TGeoTranslation(0.,0.,0.5*fgkSSDLay5LadderLength | |
1648 | - fgkLay5CenterITSPosition); | |
1649 | localbeamaxistrans[1] = new TGeoTranslation(0.,0.,0.5*fgkSSDLay6LadderLength | |
1650 | - fgkLay6CenterITSPosition); | |
1651 | const Int_t kssdlayladdernumber[fgklayernumber] = | |
1652 | {fgkSSDLay5LadderNumber,fgkSSDLay6LadderNumber}; | |
1653 | for(Int_t i=0; i<fgklayernumber; i++){ | |
1654 | locallayerrot[i] = new TGeoRotation*[kssdlayladdernumber[i]]; | |
1655 | locallayertrans[i] = new TGeoTranslation*[kssdlayladdernumber[i]]; | |
1656 | locallayercombitrans[i] = new TGeoCombiTrans*[kssdlayladdernumber[i]]; | |
1657 | flayermatrix[i] = new TGeoHMatrix*[kssdlayladdernumber[i]]; | |
1658 | } | |
1659 | Double_t layerladderangleposition[fgklayernumber] = | |
1660 | {360./fgkSSDLay5LadderNumber,360./fgkSSDLay6LadderNumber}; | |
1661 | Double_t layerradius = 0.; | |
1662 | for(Int_t i=0; i<fgklayernumber; i++){ | |
1663 | for(Int_t j=0; j<kssdlayladdernumber[i]; j++){ | |
1664 | switch(i){ | |
1665 | case 0: //Ladder of Layer5 | |
1666 | layerradius = (j%2==0 ? fgkSSDLay5RadiusMin: fgkSSDLay5RadiusMax); | |
1667 | break; | |
1668 | case 1: //Ladder of Layer6 | |
1669 | layerradius = (j%2==0 ? fgkSSDLay6RadiusMin: fgkSSDLay6RadiusMax); | |
1670 | break; | |
1671 | } | |
1672 | locallayerrot[i][j] = new TGeoRotation(); | |
1673 | locallayertrans[i][j] = new TGeoTranslation(); | |
1674 | locallayerrot[i][j]->SetAngles(j*layerladderangleposition[i],0.,0.); | |
1675 | locallayertrans[i][j]->SetTranslation(layerradius | |
1676 | * CosD(90.0+j*layerladderangleposition[i]), | |
1677 | layerradius | |
1678 | * SinD(90.0+j*layerladderangleposition[i]),0.); | |
1679 | locallayercombitrans[i][j] = new TGeoCombiTrans(*locallayertrans[i][j], | |
1680 | *locallayerrot[i][j]); | |
1681 | flayermatrix[i][j] = new TGeoHMatrix((*locallayercombitrans[i][j])*(*itscentercombitrans[i])); | |
1682 | flayermatrix[i][j]->Multiply(ladderglobalmatrix[0][i]); | |
1683 | flayermatrix[i][j]->MultiplyLeft(localbeamaxistrans[i]); | |
1684 | } | |
1685 | } | |
1686 | ///////////////////////////////////////////////////////////// | |
1687 | // Deallocating memory | |
1688 | ///////////////////////////////////////////////////////////// | |
1689 | for(Int_t i=0; i< kcarbonfibersupportmatrixnumber[1]; i++){ | |
1690 | delete carbonfiberot[i]; | |
1691 | delete localcarbonfibersupportmatrix[i]; | |
1692 | } | |
1693 | for(Int_t i=0; i< fgkcarbonfiberjunctionumber; i++){ | |
1694 | for(Int_t j=0; j< kcarbonfiberjunctionmatrixnumber; j++){ | |
1695 | delete localcarbonfiberjunctionmatrix[i][j]; | |
1696 | delete localcarbonfiberjunctionrot[i][j]; | |
1697 | delete localcarbonfiberjunctiontrans[i][j]; | |
1698 | } | |
1699 | delete [] localcarbonfiberjunctionmatrix[i]; | |
1700 | delete [] localcarbonfiberjunctionrot[i]; | |
1701 | delete [] localcarbonfiberjunctiontrans[i]; | |
1702 | } | |
1703 | for(Int_t i=0; i<fgkcarbonfiberlowersupportnumber; i++) | |
1704 | delete localcarbonfiberlowersupportrans[i]; | |
1705 | for(Int_t i=0; i< fgkssdsensorsupportnumber; i++){ | |
1706 | for(Int_t j=0; j< kssdsensorsupportmatrixnumber; j++){ | |
1707 | delete localssdsensorsupportmatrix[i][j]; | |
1708 | delete localssdsensorsupportrot[i][j]; | |
1709 | delete localssdsensorsupportrans[i][j]; | |
1710 | } | |
1711 | delete [] localssdsensorsupportmatrix[i]; | |
1712 | delete [] localssdsensorsupportrot[i]; | |
1713 | delete [] localssdsensorsupportrans[i]; | |
1714 | } | |
1715 | for(Int_t i=0; i<kcoolingtubesupportmatrixnumber; i++){ | |
1716 | delete localcoolingtubesupportmatrix[i]; | |
1717 | delete localcoolingtubesupportrot[i]; | |
1718 | delete localcoolingtubesupportrans[i]; | |
1719 | } | |
1720 | for(Int_t i=0; i<4; i++){ | |
1721 | for(Int_t j=0; j<2; j++){ | |
1722 | delete localcoolingtubevect[i][j]; | |
1723 | delete localcoolingtubetrans[i][j]; | |
1724 | } | |
1725 | delete [] localcoolingtubevect[i]; | |
1726 | delete [] localcoolingtubetrans[i]; | |
1727 | } | |
1728 | delete endladdermountingblockrot; | |
1729 | for(Int_t i=0; i<khybridmatrixnumber; i++) delete localhybridtrans[i]; | |
1730 | for(Int_t i=0; i<kcoolingblockmatrixnumber; i++) delete localcoolingblocktrans[i]; | |
1731 | for(Int_t i=0; i<fgkflexnumber; i++){ | |
1732 | for(Int_t j=1; j<klocalflexmatrixnumber; j++) | |
1733 | delete localflexmatrix[i][j]; | |
1734 | delete [] localflexmatrix[i]; | |
1735 | } | |
1736 | delete localendlladdercoolingtuberot; | |
1737 | for(Int_t i=0; i<2; i++){ | |
1738 | for(Int_t j=0; j<(i==0?6:4); j++) | |
1739 | delete localendlladdercoolingtubetrans[i][j]; | |
1740 | delete [] localendlladdercoolingtubetrans[i]; | |
1741 | } | |
1742 | ||
1743 | delete localflexrot; | |
1744 | delete localendflexrot; | |
1745 | delete localendflexmatrix; | |
1746 | for(Int_t i=0; i<fgkladdernumber; i++){ | |
1747 | delete localladdermothertrans[i]; | |
1748 | delete localladdermothercombitrans[i]; | |
1749 | } | |
1750 | delete localladdermotherrot; | |
1751 | for(Int_t i=0; i<fgkendlabbercarbonfiberjunctionumber; i++){ | |
1752 | for(Int_t j=0; j<fgkendladdercabonfiberjunctionmatrixnumber; j++){ | |
1753 | delete localendladdercarbonfiberjunctionmatrix[i][j]; | |
1754 | delete localendladdercarbonfiberjunctionrot[i][j]; | |
1755 | delete localendladdercarbonfiberjunctiontrans[i][j]; | |
1756 | } | |
1757 | delete [] localendladdercarbonfiberjunctionmatrix[i]; | |
1758 | delete [] localendladdercarbonfiberjunctionrot[i]; | |
1759 | delete [] localendladdercarbonfiberjunctiontrans[i]; | |
1760 | delete localendladdercarbonfiberjunctionglobalrot[i]; | |
1761 | delete localendladdercarbonfiberjunctionglobaltrans[i]; | |
1762 | delete localendladdercarbonfiberjunctionglobalmatrix[i]; | |
1763 | } | |
1764 | for(Int_t i=0; i<2; i++){ | |
1765 | for(Int_t j=0; j<(i==0?4:2); j++) delete localendladdercooltubetrans[i][j]; | |
1766 | delete [] localendladdercooltubetrans[i]; | |
1767 | } | |
1768 | for(Int_t i=0; i<fgkendladdercarbonfibermatrixnumber; i++) | |
1769 | delete localendladdercarbonfibertrans[i]; | |
1770 | for(Int_t i=0; i<3; i++) delete localladdercablerot[i]; | |
1771 | for(Int_t i=0; i<klocalladdersidecablesnumber; i++){ | |
1772 | for(Int_t j=0; j<klocalladdercombitransnumber; j++) | |
1773 | delete localladdercablecombitransmatrix[i][j]; | |
1774 | delete []localladdercablecombitransmatrix[i]; | |
1775 | } | |
1776 | delete localendladdercliprot; | |
1777 | delete localendladdercliptrans; | |
1778 | for(Int_t i=0; i<fgkladdercablesnumber; i++){ | |
1779 | for(Int_t j=0; j<klocalladdersidecablesnumber; j++) | |
1780 | delete localladdercablehmatrix[i][j]; | |
1781 | delete []localladdercablehmatrix[i]; | |
1782 | } | |
1783 | delete laddercablerot; | |
1784 | delete laddercabletrans; | |
1785 | delete laddercablecombitrans; | |
1786 | delete localladdercablessdmodulematrix; | |
1787 | delete localssdsensorrot; | |
1788 | for(Int_t i=0; i<2; i++){ | |
1789 | delete localssdsensortrans[i]; | |
1790 | delete localssdsensorcombitrans[i]; | |
1791 | } | |
1792 | for(Int_t i=0; i<fgklayernumber; i++){ | |
1793 | for(Int_t j=0; j<kssdlayladdernumber[i]; j++){ | |
1794 | delete locallayerrot[i][j]; | |
1795 | delete locallayertrans[i][j]; | |
1796 | delete locallayercombitrans[i][j]; | |
1797 | } | |
1798 | delete [] locallayerrot[i]; | |
1799 | delete [] locallayertrans[i]; | |
1800 | delete [] locallayercombitrans[i]; | |
1801 | delete localbeamaxistrans[i]; | |
1802 | } | |
1803 | for(Int_t i=0; i<3; i++) delete itscenterrot[i]; | |
1804 | for(Int_t i=0; i<fgkladdernumber; i++){ | |
1805 | for(Int_t j=0; j<fgkladdernumber; j++) | |
1806 | delete ladderglobalmatrix[i][j]; | |
1807 | delete [] ladderglobalmatrix[i]; | |
1808 | } | |
1809 | ///////////////////////////////////////////////////////////// | |
1810 | fTransformationMatrices = kTRUE; | |
1811 | } | |
1812 | /////////////////////////////////////////////////////////////////////////////// | |
1813 | void AliITSv11GeometrySSD::CreateBasicObjects(){ | |
1814 | ///////////////////////////////////////////////////////////// | |
1815 | // Method generating the Objects of SSD Geometry | |
1816 | ///////////////////////////////////////////////////////////// | |
1817 | // SSD Sensor | |
1818 | /////////////////////////////////// | |
1819 | SetSSDSensor(); | |
1820 | ///////////////////////////////////////////////////////////// | |
1821 | // Carbon Fiber Support | |
1822 | ///////////////////////////////////////////////////////////// | |
1823 | TList* carbonfibersupportlist = GetCarbonFiberSupportList(); | |
1824 | for(Int_t i=0; i<fgkcarbonfibersupportnumber; i++) | |
1825 | fcarbonfibersupport[i] = (TGeoVolume*)carbonfibersupportlist->At(i); | |
1826 | ///////////////////////////////////////////////////////////// | |
1827 | // Carbon Fiber Junction | |
1828 | ///////////////////////////////////////////////////////////// | |
1829 | fcarbonfiberjunction = GetCarbonFiberJunction(fgkCarbonFiberJunctionWidth-fgkSSDTolerance); | |
1830 | ///////////////////////////////////////////////////////////// | |
1831 | // Carbon Fiber Lower Support | |
1832 | ///////////////////////////////////////////////////////////// | |
1833 | TList* carbonfiberlowersupportlist = GetCarbonFiberLowerSupportList(); | |
1834 | for(Int_t i=0; i<fgkcarbonfiberlowersupportnumber; i++) | |
1835 | fcarbonfiberlowersupport[i] = (TGeoVolume*)carbonfiberlowersupportlist->At(i); | |
1836 | ///////////////////////////// | |
1837 | // SSD Sensor Support | |
1838 | ///////////////////////////// | |
1839 | for(Int_t i=0; i<fgkvolumekind; i++) fssdsensorsupport[i] = | |
1840 | new TGeoVolume*[fgkssdsensorsupportnumber]; | |
1841 | Double_t sidesupporthickness[2] = {fgkSSDSensorSideSupportThickness[0], | |
1842 | fgkSSDSensorSideSupportThickness[1]}; | |
1843 | for(Int_t i=0; i<fgkssdsensorsupportnumber-1; i++){ | |
1844 | fssdsensorsupport[0][i] = GetSSDSensorSupport(fgkSSDSensorSideSupportLength, | |
1845 | fgkSSDSensorSideSupportHeight[i], | |
1846 | fgkSSDSensorSideSupportWidth, | |
1847 | sidesupporthickness); | |
1848 | fssdsensorsupport[1][i] = GetSSDSensorSupport(fgkSSDSensorCenterSupportLength, | |
1849 | fgkSSDSensorCenterSupportHeight[i], | |
1850 | fgkSSDSensorCenterSupportWidth, | |
1851 | sidesupporthickness); | |
1852 | } | |
1853 | ///////////////////////////////////////////////////////////// | |
1854 | // SSD Cooling Tube Support | |
1855 | ///////////////////////////////////////////////////////////// | |
1856 | Int_t edgesnumber = 16; | |
1857 | fcoolingtubesupport = GetCoolingTubeSupport(edgesnumber); | |
1858 | ///////////////////////////////////////////////////////////// | |
1859 | // SSD Hybrid | |
1860 | ///////////////////////////////////////////////////////////// | |
1861 | TList* ssdhybridcomponentslist = GetSSDHybridParts(); | |
1862 | for(Int_t i=0; i<fgkhybridcompnumber; i++) | |
1863 | fssdhybridcomponent[i] = (TGeoVolume*)ssdhybridcomponentslist->At(i); | |
1864 | ///////////////////////////////////////////////////////////// | |
1865 | // SSD Cooling Block System | |
1866 | ///////////////////////////////////////////////////////////// | |
1867 | fssdcoolingblocksystem = GetCoolingBlockSystem(); | |
1868 | ///////////////////////////////////////////////////////////// | |
1869 | // SSD Cooling Tube | |
1870 | ///////////////////////////////////////////////////////////// | |
1871 | TList* coolingtubelist = GetCoolingTubeList(); | |
1872 | for(Int_t i=0; i<fgkcoolingtubenumber; i++) | |
1873 | fcoolingtube[i] = (TGeoVolume*)coolingtubelist->At(i); | |
1874 | for(Int_t i=0; i<fgkendladdercoolingtubenumber; i++) | |
1875 | fendladdercoolingtube[i] = | |
1876 | (TGeoVolume*)coolingtubelist->At(fgkcoolingtubenumber+i); | |
1877 | ///////////////////////////////////////////////////////////// | |
1878 | // SSD Flex | |
1879 | ///////////////////////////////////////////////////////////// | |
1880 | fssdstiffenerflex = GetSSDStiffenerFlex(); | |
1881 | fssdendflex = GetSSDEndFlex(); | |
1882 | /////////////////////////////////// | |
1883 | // End Ladder Carbon Fiber Junction | |
1884 | /////////////////////////////////// | |
1885 | for(Int_t i=0; i<fgkendlabbercarbonfiberjunctionumber; i++) | |
1886 | fendladdercarbonfiberjunction[i] = | |
1887 | new TGeoVolume*[fgkendlabbercarbonfiberjunctionumber]; | |
1888 | for(Int_t i=0; i<fgkendlabbercarbonfiberjunctionumber; i++){ | |
1889 | fendladdercarbonfiberjunction[i][0] = | |
1890 | GetCarbonFiberJunction(fgkEndLadderCarbonFiberLowerJunctionLength[i]-fgkSSDTolerance); | |
1891 | fendladdercarbonfiberjunction[i][1] = | |
1892 | GetCarbonFiberJunction(fgkEndLadderCarbonFiberUpperJunctionLength[i]-fgkSSDTolerance); | |
1893 | } | |
1894 | /////////////////////////////////// | |
1895 | // End Ladder Mounting Block | |
1896 | /////////////////////////////////// | |
1897 | fendladdermountingblock = GetSSDMountingBlock(); | |
1898 | /////////////////////////////////// | |
1899 | // End Ladder Mounting Block | |
1900 | /////////////////////////////////// | |
1901 | fendladdermountingblockclip = GetMountingBlockClip(); | |
1902 | /////////////////////////////////// | |
1903 | // Ladder Support | |
1904 | /////////////////////////////////// | |
1905 | TList* laddersupportlist = GetMountingBlockSupport(20); | |
1906 | fLay5LadderSupport[0] = (TGeoVolume*)laddersupportlist->At(0); | |
1907 | fLay5LadderSupport[1] = (TGeoVolume*)laddersupportlist->At(1); | |
1908 | fLay6LadderSupport[0] = (TGeoVolume*)laddersupportlist->At(2); | |
1909 | fLay6LadderSupport[1] = (TGeoVolume*)laddersupportlist->At(3); | |
1910 | ///////////////////////////////////////////////////////////// | |
1911 | // Deallocating memory | |
1912 | ///////////////////////////////////////////////////////////// | |
1913 | delete carbonfibersupportlist; | |
1914 | delete carbonfiberlowersupportlist; | |
1915 | delete ssdhybridcomponentslist; | |
1916 | delete laddersupportlist; | |
1917 | ///////////////////////////////////////////////////////////// | |
1918 | fBasicObjects = kTRUE; | |
1919 | } | |
1920 | ///////////////////////////////////////////////////////////////////////////////// | |
1921 | void AliITSv11GeometrySSD::SetSSDSensor(){ | |
1922 | //////////////////////////////////////////////////////////////// | |
1923 | // Method generating SSD Sensors: it sets the private variables | |
1924 | // fSSDSensor5, fSSDSensor6 | |
1925 | //////////////////////////////////////////////////////////////// | |
1926 | Double_t ssdsensitivelength = fgkSSDSensorLength-2.*fgkSSDSensorInsensitiveLength; | |
1927 | Double_t ssdsensitivewidth = fgkSSDSensorWidth-2.*fgkSSDSensorInsensitiveWidth; | |
1928 | TGeoBBox* ssdsensorsensitiveshape = new TGeoBBox("SSDSensorSensitiveShape", | |
1929 | 0.5*ssdsensitivewidth, | |
1930 | 0.5*fgkSSDSensorHeight, | |
1931 | 0.5*ssdsensitivelength); | |
1932 | TGeoVolume* ssdsensorsensitiveLay5 = | |
1933 | new TGeoVolume(fgSSDsensitiveVolName5,ssdsensorsensitiveshape,fSSDSensorMedium); | |
1934 | TGeoVolume* ssdsensorsensitiveLay6 = | |
1935 | new TGeoVolume(fgSSDsensitiveVolName6,ssdsensorsensitiveshape,fSSDSensorMedium); | |
1936 | ssdsensorsensitiveLay5->SetLineColor(fColorSilicon); | |
1937 | ssdsensorsensitiveLay6->SetLineColor(fColorSilicon); | |
1938 | TGeoBBox* ssdsensorinsensitiveshape[2]; | |
1939 | ssdsensorinsensitiveshape[0] = new TGeoBBox("SSDSensorInsensitiveShape1", | |
1940 | 0.5*fgkSSDSensorInsensitiveWidth, | |
1941 | 0.5*fgkSSDSensorHeight, | |
1942 | 0.5*fgkSSDSensorLength); | |
1943 | ssdsensorinsensitiveshape[1] = new TGeoBBox("SSDSensorInsensitiveShape2", | |
1944 | 0.5*ssdsensitivewidth, | |
1945 | 0.5*fgkSSDSensorHeight, | |
1946 | 0.5*fgkSSDSensorInsensitiveWidth); | |
1947 | const char* ssdsensorinsensitivename[2] = {"SSDSensorInsensitive1", | |
1948 | "SSDSensorInsensitive2"}; | |
1949 | TGeoVolume* ssdsensorinsensitive[2]; | |
1950 | for(Int_t i=0; i<2; i++){ ssdsensorinsensitive[i] = | |
1951 | new TGeoVolume(ssdsensorinsensitivename[i],ssdsensorinsensitiveshape[i], | |
1952 | fSSDSensorMedium); | |
1953 | ssdsensorinsensitive[i]->SetLineColor(fColorCarbonFiber); | |
1954 | } | |
1955 | ///////////////////////////////////////////////////////////// | |
1956 | // Virtual Volume containing SSD Sensor | |
1957 | ///////////////////////////////////////////////////////////// | |
1958 | TGeoBBox* virtualSSDSensorShape = new TGeoBBox("SSDSensorShape", | |
1959 | 0.5*fgkSSDSensorWidth, | |
1960 | 0.5*fgkSSDSensorHeight, | |
1961 | 0.5*fgkSSDSensorLength); | |
1962 | fSSDSensor5 = new TGeoVolume("ITSssdSensor5",virtualSSDSensorShape, | |
1963 | fSSDAir); | |
1964 | fSSDSensor6 = new TGeoVolume("ITSssdSensor6",virtualSSDSensorShape, | |
1965 | fSSDAir); | |
1966 | ///////////////////////////////////////////////////////////// | |
1967 | for(Int_t i=0; i<4; i++){ | |
1968 | fSSDSensor5->AddNode(i%2==0 ? ssdsensorinsensitive[0]: | |
1969 | ssdsensorinsensitive[1],i<2?1:2, | |
1970 | new TGeoTranslation( | |
1971 | 0.5*(1.+TMath::Power(-1.,i))*(i==0?-1.: 1.) | |
1972 | * (ssdsensorsensitiveshape->GetDX()+ssdsensorinsensitiveshape[0]->GetDX()),0., | |
1973 | 0.5*(1.-TMath::Power(-1.,i))*(i==1? 1.:-1.) | |
1974 | * (ssdsensorsensitiveshape->GetDZ()+ssdsensorinsensitiveshape[1]->GetDZ()))); | |
1975 | fSSDSensor6->AddNode(i%2==0 ? ssdsensorinsensitive[0]: | |
1976 | ssdsensorinsensitive[1],i<2?1:2, | |
1977 | new TGeoTranslation( | |
1978 | 0.5*(1.+TMath::Power(-1.,i))*(i==0?-1.: 1.) | |
1979 | * (ssdsensorsensitiveshape->GetDX()+ssdsensorinsensitiveshape[0]->GetDX()),0., | |
1980 | 0.5*(1.-TMath::Power(-1.,i))*(i==1? 1.:-1.) | |
1981 | * (ssdsensorsensitiveshape->GetDZ()+ssdsensorinsensitiveshape[1]->GetDZ()))); | |
1982 | } | |
1983 | fSSDSensor5->AddNode(ssdsensorsensitiveLay5,1); | |
1984 | fSSDSensor6->AddNode(ssdsensorsensitiveLay6,1); | |
1985 | } | |
1986 | /////////////////////////////////////////////////////////////////////////////// | |
1987 | TList* AliITSv11GeometrySSD::GetCarbonFiberSupportList(){ | |
1988 | ///////////////////////////////////////////////////////////// | |
1989 | // Method generating the Carbon Fiber Support | |
1990 | ///////////////////////////////////////////////////////////// | |
1991 | const Int_t kvertexnumber = 4; | |
1992 | const Int_t kshapesnumber = 2; | |
1993 | TVector3** vertexposition[kshapesnumber]; | |
1994 | for(Int_t i=0; i<kshapesnumber; i++) vertexposition[i] = new TVector3*[kvertexnumber]; | |
1995 | Double_t carbonfibersupportxaxisEdgeproj = | |
1996 | fgkCarbonFiberSupportEdgeLength*TMath::Cos(fgkCarbonFiberJunctionAngle[0] | |
1997 | * TMath::DegToRad()); | |
1998 | Double_t theta = TMath::ATan(fgkCarbonFiberSupportYAxisLength | |
1999 | / fgkCarbonFiberSupportXAxisLength); | |
2000 | ///////////////////// | |
2001 | //Vertex Positioning | |
2002 | //////////////////// | |
2003 | vertexposition[0][0] = new TVector3(); | |
2004 | vertexposition[0][1] = new TVector3(fgkCarbonFiberSupportXAxisLength, | |
2005 | fgkCarbonFiberSupportYAxisLength); | |
2006 | vertexposition[0][2] = new TVector3(carbonfibersupportxaxisEdgeproj, | |
2007 | carbonfibersupportxaxisEdgeproj | |
2008 | * TMath::Tan(theta)); | |
2009 | vertexposition[0][3] = new TVector3(fgkCarbonFiberSupportXAxisLength | |
2010 | - carbonfibersupportxaxisEdgeproj, | |
2011 | fgkCarbonFiberSupportYAxisLength | |
2012 | - vertexposition[0][2]->Y()); | |
2013 | //////////////////////////////////////////////////// | |
2014 | //Setting the parameters for Isometry Transformation | |
2015 | //////////////////////////////////////////////////// | |
2016 | Double_t symmetryplaneposition = (fgkCarbonFiberSupportYAxisLength | |
2017 | + fgkCarbonFiberSupportTopEdgeDist[0] | |
2018 | + fgkCarbonFiberSupportWidth); | |
2019 | Double_t* param = new Double_t[4]; | |
2020 | param[0] = 0., param[1] = 1., param[2] = 0., param[3] = -symmetryplaneposition; | |
2021 | for(Int_t j=0; j<kvertexnumber; j++) vertexposition[1][j] = | |
2022 | new TVector3((GetReflection(vertexposition[0][j],param))->X(), | |
2023 | (GetReflection(vertexposition[0][j],param))->Y()); | |
2024 | const char* carbonfibersupportshapename[kshapesnumber] = | |
2025 | {"CarbonFiberSupportShape1","CarbonFiberSupportShape2"}; | |
2026 | const char* carbonfibersupportname[kshapesnumber] = | |
2027 | {"CarbonFiberSupport1","CarbonFiberSupport2"}; | |
2028 | TGeoArb8* carbonfibersupportshape[kshapesnumber]; | |
2029 | TGeoVolume* carbonfibersupport[kshapesnumber]; | |
2030 | TList* carbonfibersupportlist = new TList(); | |
2031 | Double_t width[2] = {fgkCarbonFiberSupportWidth,fgkCarbonFiberSupportWidth}; | |
2032 | Double_t carbonfibersupportheight = | |
2033 | carbonfibersupportxaxisEdgeproj*TMath::Tan(fgkCarbonFiberJunctionAngle[0] | |
2034 | *TMath::DegToRad()); | |
2035 | for(Int_t i = 0; i< kshapesnumber; i++){ | |
2036 | carbonfibersupportshape[i] = | |
2037 | GetArbShape(vertexposition[i],width,carbonfibersupportheight, | |
2038 | carbonfibersupportshapename[i],i==0 ? 1: -1); | |
2039 | carbonfibersupport[i] = new TGeoVolume(carbonfibersupportname[i], | |
2040 | carbonfibersupportshape[i],fSSDCarbonFiberMedium); | |
2041 | carbonfibersupport[i]->SetLineColor(fColorCarbonFiber); | |
2042 | carbonfibersupportlist->Add(carbonfibersupport[i]); | |
2043 | } | |
2044 | ///////////////////////////////////////////////////////////// | |
2045 | // Deallocating memory | |
2046 | ///////////////////////////////////////////////////////////// | |
2047 | for(Int_t i=0; i< kshapesnumber; i++){ | |
2048 | for(Int_t j=0; j< kvertexnumber; j++) | |
2049 | delete vertexposition[i][j]; | |
2050 | delete [] vertexposition[i]; | |
2051 | } | |
2052 | delete [] param; | |
2053 | ///////////////////////////////////////////////////////////// | |
2054 | return carbonfibersupportlist; | |
2055 | } | |
2056 | ///////////////////////////////////////////////////////////////////////////////// | |
2057 | TGeoVolume* AliITSv11GeometrySSD::GetCarbonFiberJunction(Double_t width){ | |
2058 | ///////////////////////////////////////////////////////////// | |
2059 | // Method generating SSD Carbon Fiber Junction | |
2060 | ///////////////////////////////////////////////////////////// | |
2061 | const Int_t kvertexnumber = 6; | |
2062 | TGeoXtru* carbonfiberjunctionshape = new TGeoXtru(2); | |
2063 | Double_t reflectionparam[4] = {TMath::Tan(fgkCarbonFiberJunctionAngle[0] | |
2064 | * TMath::DegToRad()),-1.,0.,0.}; | |
2065 | TVector3* vertex[kvertexnumber]; | |
2066 | vertex[0] = new TVector3(); | |
2067 | vertex[3] = new TVector3(fgkCarbonFiberJunctionEdge[0] | |
2068 | * TMath::Cos(fgkCarbonFiberJunctionAngle[0] | |
2069 | * TMath::DegToRad()), | |
2070 | fgkCarbonFiberJunctionEdge[0] | |
2071 | * TMath::Sin(fgkCarbonFiberJunctionAngle[0] | |
2072 | * TMath::DegToRad())); | |
2073 | vertex[4] = new TVector3(fgkCarbonFiberJunctionLength, | |
2074 | fgkCarbonFiberJunctionEdge[1]); | |
2075 | vertex[5] = new TVector3(fgkCarbonFiberJunctionLength); | |
2076 | vertex[1] = GetReflection(vertex[5],reflectionparam); | |
2077 | vertex[2] = GetReflection(vertex[4],reflectionparam); | |
2078 | Double_t xvertexpoints[6], yvertexpoints[6]; | |
2079 | for(Int_t i=0; i<kvertexnumber; i++) | |
2080 | xvertexpoints[i] = vertex[i]->X(), yvertexpoints[i] = vertex[i]->Y(); | |
2081 | carbonfiberjunctionshape->DefinePolygon(kvertexnumber,xvertexpoints,yvertexpoints); | |
2082 | carbonfiberjunctionshape->DefineSection(0,-0.5*width); | |
2083 | carbonfiberjunctionshape->DefineSection(1,0.5*width); | |
2084 | TGeoVolume* carbonfiberjunction = new TGeoVolume("CarbonFiberJunction", | |
2085 | carbonfiberjunctionshape,fSSDCarbonFiberMedium); | |
2086 | carbonfiberjunction->SetLineColor(fColorCarbonFiber); | |
2087 | ///////////////////////////////////////////////////////////// | |
2088 | // Deallocating memory | |
2089 | ///////////////////////////////////////////////////////////// | |
2090 | for (Int_t i=0; i<kvertexnumber; i++) delete vertex[i]; | |
2091 | ///////////////////////////////////////////////////////////// | |
2092 | return carbonfiberjunction; | |
2093 | } | |
2094 | //////////////////////////////////////////////////////////////////////////////// | |
2095 | TList* AliITSv11GeometrySSD::GetCarbonFiberLowerSupportList(){ | |
2096 | ///////////////////////////////////////////////////////////// | |
2097 | // Method generating the Carbon Fiber Lower Support | |
2098 | ///////////////////////////////////////////////////////////// | |
2099 | const Int_t kvertexnumber = 4; | |
2100 | const Int_t kshapesnumber = 2; | |
2101 | Double_t width[2] = {fgkCarbonFiberLowerSupportWidth, | |
2102 | fgkCarbonFiberLowerSupportWidth}; | |
2103 | TVector3** vertexposition[kshapesnumber]; | |
2104 | for(Int_t i = 0; i<kshapesnumber; i++) vertexposition[i] = | |
2105 | new TVector3*[kvertexnumber]; | |
2106 | //First Shape Vertex Positioning | |
2107 | vertexposition[0][0] = new TVector3(fgkCarbonFiberLowerSupportLowerLenght); | |
2108 | vertexposition[0][1] = new TVector3(fgkCarbonFiberTriangleLength | |
2109 | - fgkCarbonFiberLowerSupportLowerLenght); | |
2110 | vertexposition[0][2] = new TVector3(); | |
2111 | vertexposition[0][3] = new TVector3(fgkCarbonFiberTriangleLength); | |
2112 | //Second Shape Vertex Positioning | |
2113 | Double_t theta = TMath::ATan((fgkCarbonFiberLowerSupportVolumePosition[1] | |
2114 | - fgkCarbonFiberLowerSupportVolumePosition[0]) | |
2115 | / fgkCarbonFiberTriangleLength); | |
2116 | vertexposition[1][0] = new TVector3(vertexposition[0][0]->X(), | |
2117 | vertexposition[0][0]->X()*TMath::Tan(theta) | |
2118 | + fgkCarbonFiberLowerSupportVolumePosition[0]); | |
2119 | vertexposition[1][1] = new TVector3(vertexposition[0][1]->X(), | |
2120 | vertexposition[0][1]->X()*TMath::Tan(theta) | |
2121 | + fgkCarbonFiberLowerSupportVolumePosition[0]); | |
2122 | vertexposition[1][2] = new TVector3(0.,fgkCarbonFiberLowerSupportVolumePosition[0]); | |
2123 | vertexposition[1][3] = new TVector3(fgkCarbonFiberTriangleLength, | |
2124 | fgkCarbonFiberLowerSupportVolumePosition[1]); | |
2125 | const char* carbonfiberlowersupportshapename[kshapesnumber] = | |
2126 | {"CarbonFiberLowerSupportShape1","CarbonFiberLowerSupportShape2"}; | |
2127 | const char* carbonfiberlowersupportname[kshapesnumber] = | |
2128 | {"CarbonFiberLowerSupport1","CarbonFiberLowerSupport2"}; | |
2129 | TGeoArb8* carbonfiberlowersupportshape[kshapesnumber]; | |
2130 | TGeoVolume* carbonfiberlowersupport[kshapesnumber]; | |
2131 | TList* carbonfiberlowersupportlist = new TList(); | |
2132 | for(Int_t i = 0; i< kshapesnumber; i++){ | |
2133 | carbonfiberlowersupportshape[i] = | |
2134 | GetArbShape(vertexposition[i],width, | |
2135 | fgkCarbonFiberLowerSupportHeight, | |
2136 | carbonfiberlowersupportshapename[i]); | |
2137 | carbonfiberlowersupport[i] = new TGeoVolume(carbonfiberlowersupportname[i], | |
2138 | carbonfiberlowersupportshape[i],fSSDCarbonFiberMedium); | |
2139 | carbonfiberlowersupport[i]->SetLineColor(fColorCarbonFiber); | |
2140 | carbonfiberlowersupportlist->Add(carbonfiberlowersupport[i]); | |
2141 | } | |
2142 | ///////////////////////////////////////////////////////////// | |
2143 | // Deallocating memory | |
2144 | ///////////////////////////////////////////////////////////// | |
2145 | for(Int_t i=0; i< kshapesnumber; i++){ | |
2146 | for(Int_t j=0; j< kvertexnumber; j++) | |
2147 | delete vertexposition[i][j]; | |
2148 | delete [] vertexposition[i]; | |
2149 | } | |
2150 | ///////////////////////////////////////////////////////////// | |
2151 | return carbonfiberlowersupportlist; | |
2152 | } | |
2153 | /////////////////////////////////////////////////////////////////////////////// | |
2154 | TGeoVolume* AliITSv11GeometrySSD::GetSSDSensorSupport(Double_t length, Double_t height, | |
2155 | Double_t width, Double_t* thickness)const{ | |
2156 | ///////////////////////////////////////////////////////////// | |
2157 | // Method generating the Sensor Support | |
2158 | ///////////////////////////////////////////////////////////// | |
2159 | const Int_t kvertexnumber = 6; | |
2160 | TGeoXtru* ssdsensorsupportshape = new TGeoXtru(2); | |
2161 | TVector3* vertexposition[kvertexnumber]; | |
2162 | vertexposition[0] = new TVector3(); | |
2163 | vertexposition[1] = new TVector3(0.0,length); | |
2164 | vertexposition[2] = new TVector3(thickness[1],vertexposition[1]->Y()); | |
2165 | vertexposition[3] = new TVector3(vertexposition[2]->X(),thickness[0]); | |
2166 | vertexposition[4] = new TVector3(height,vertexposition[3]->Y()); | |
2167 | vertexposition[5] = new TVector3(vertexposition[4]->X()); | |
2168 | Double_t xvertexpoints[6], yvertexpoints[6]; | |
2169 | for(Int_t i=0; i<kvertexnumber; i++) | |
2170 | xvertexpoints[i] = vertexposition[i]->X(), | |
2171 | yvertexpoints[i] = vertexposition[i]->Y(); | |
2172 | ssdsensorsupportshape->DefinePolygon(kvertexnumber,xvertexpoints,yvertexpoints); | |
2173 | ssdsensorsupportshape->DefineSection(0,-0.5*width); | |
2174 | ssdsensorsupportshape->DefineSection(1,0.5*width); | |
2175 | TGeoVolume* ssdsensorsupport = new TGeoVolume("SSDSensorSupport", | |
2176 | ssdsensorsupportshape,fSSDSensorSupportMedium); | |
2177 | ///////////////////////////////////////////////////////////// | |
2178 | // Deallocating memory | |
2179 | ///////////////////////////////////////////////////////////// | |
2180 | for (Int_t i=0; i<kvertexnumber; i++) | |
2181 | delete vertexposition[i]; | |
2182 | ///////////////////////////////////////////////////////////// | |
2183 | return ssdsensorsupport; | |
2184 | } | |
2185 | //////////////////////////////////////////////////////////////////////////////// | |
2186 | TGeoVolume* AliITSv11GeometrySSD::GetCoolingTubeSupport(Int_t nedges){ | |
2187 | ///////////////////////////////////////////////////////////// | |
2188 | // Method generating the Cooling Tube Support | |
2189 | ///////////////////////////////////////////////////////////// | |
2190 | if(nedges%2!=0) nedges--; | |
2191 | const Int_t kvertexnumber = nedges+5; | |
2192 | Double_t phi = TMath::ASin(0.5*fgkCoolingTubeSupportHeight | |
2193 | / fgkCoolingTubeSupportRmax)*TMath::RadToDeg(); | |
2194 | Double_t angle = 90.+phi; | |
2195 | Double_t psi = 90.-phi; | |
2196 | /////////////////////////////////////// | |
2197 | // Vertex Positioning for TGeoXTru | |
2198 | /////////////////////////////////////// | |
2199 | TVector3** vertexposition = new TVector3*[kvertexnumber]; | |
2200 | vertexposition[0] = new TVector3(fgkCoolingTubeSupportRmin*CosD(angle), | |
2201 | fgkCoolingTubeSupportRmin*SinD(angle)); | |
2202 | vertexposition[1] = new TVector3(fgkCoolingTubeSupportRmax*CosD(angle), | |
2203 | fgkCoolingTubeSupportRmax*SinD(angle)); | |
2204 | vertexposition[2] = new TVector3(vertexposition[1]->X(), | |
2205 | fgkCoolingTubeSupportRmax); | |
2206 | vertexposition[3] = new TVector3(-vertexposition[1]->X(), | |
2207 | fgkCoolingTubeSupportRmax); | |
2208 | vertexposition[4] = new TVector3(-vertexposition[1]->X(), | |
2209 | vertexposition[1]->Y()); | |
2210 | for(Int_t i=0; i<nedges; i++) | |
2211 | vertexposition[i+5] = | |
2212 | new TVector3(fgkCoolingTubeSupportRmin*CosD(psi+i*(2.*phi/nedges)), | |
2213 | fgkCoolingTubeSupportRmin*SinD(psi+i*(2.*phi/nedges))); | |
2214 | /////////////////////////////////////////////////////////////////////// | |
2215 | // TGeoXTru Volume definition for Cooling Tube Support Arc Part | |
2216 | /////////////////////////////////////////////////////////////////////// | |
2217 | TGeoXtru* coolingtubesupportarcshape = new TGeoXtru(2); | |
2218 | Double_t* xvertexpoints = new Double_t[kvertexnumber]; | |
2219 | Double_t* yvertexpoints = new Double_t[kvertexnumber]; | |
2220 | for(Int_t i=0; i<kvertexnumber; i++){ | |
2221 | xvertexpoints[i] = vertexposition[i]->X(); | |
2222 | yvertexpoints[i] = vertexposition[i]->Y(); | |
2223 | } | |
2224 | coolingtubesupportarcshape->DefinePolygon(kvertexnumber,xvertexpoints, | |
2225 | yvertexpoints); | |
2226 | coolingtubesupportarcshape->DefineSection(0,-0.5*fgkCoolingTubeSupportWidth); | |
2227 | coolingtubesupportarcshape->DefineSection(1,0.5*fgkCoolingTubeSupportWidth); | |
2228 | TGeoVolume* coolingtubesupportarc = new TGeoVolume("CoolingTubeSupportArc", | |
2229 | coolingtubesupportarcshape, | |
2230 | fSSDTubeHolderMedium); | |
2231 | coolingtubesupportarc->SetLineColor(fColorG10); | |
2232 | ////////////////////////////////////////////////////////////////////////// | |
2233 | // TGeoTubeSeg Volume definition for Cooling Tube Support TGeoTubeSeg Part | |
2234 | ////////////////////////////////////////////////////////////////////////// | |
2235 | TGeoTubeSeg* coolingtubesupportsegshape = | |
2236 | new TGeoTubeSeg(fgkCoolingTubeSupportRmin, | |
2237 | fgkCoolingTubeSupportRmax, | |
2238 | 0.5*fgkCoolingTubeSupportWidth, | |
2239 | phi,360-phi); | |
2240 | TGeoVolume* coolingtubesupportseg = new TGeoVolume("CoolingTubeSupportSeg", | |
2241 | coolingtubesupportsegshape, | |
2242 | fSSDTubeHolderMedium); | |
2243 | coolingtubesupportseg->SetLineColor(fColorG10); | |
2244 | ////////////////////////////////////////////////////////////////////////// | |
2245 | // TGeoBBox Volume definition for Cooling Tube Support Box Part | |
2246 | ////////////////////////////////////////////////////////////////////////// | |
2247 | Double_t* boxorigin = new Double_t[3]; | |
2248 | Double_t boxlength = fgkCoolingTubeSupportLength-2.*fgkCoolingTubeSupportRmax; | |
2249 | boxorigin[0] = fgkCoolingTubeSupportRmax+0.5*boxlength, boxorigin[1] = boxorigin[2] = 0.; | |
2250 | TGeoBBox* coolingtubesupportboxshape = new TGeoBBox(0.5*boxlength, | |
2251 | 0.5*fgkCoolingTubeSupportHeight, | |
2252 | 0.5*fgkCoolingTubeSupportWidth,boxorigin); | |
2253 | TGeoVolume* coolingtubesupportbox = new TGeoVolume("CoolingTubeSupportBox", | |
2254 | coolingtubesupportboxshape,fSSDTubeHolderMedium); | |
2255 | coolingtubesupportbox->SetLineColor(fColorG10); | |
2256 | ////////////////////////////////////////////////////////////////////////// | |
2257 | // Cooling Tube for Cooling Tube Support | |
2258 | ////////////////////////////////////////////////////////////////////////// | |
2259 | TGeoXtru* coolingtubearcshape[2]; | |
2260 | coolingtubearcshape[0] = new TGeoXtru(2); | |
2261 | Double_t* xvert = new Double_t[nedges+2]; | |
2262 | Double_t* yvert = new Double_t[nedges+2]; | |
2263 | Double_t ratio = fgkCoolingTubeRmin/fgkCoolingTubeSupportRmin; | |
2264 | //////////////////////////////////////// | |
2265 | // Positioning the vertices for TGeoXTru | |
2266 | //////////////////////////////////////// | |
2267 | xvert[0] = 0., yvert[0] = 0.; | |
2268 | xvert[1] = vertexposition[0]->X()*ratio, yvert[1] = vertexposition[0]->Y()*ratio; | |
2269 | for(Int_t i=0; i< nedges; i++) | |
2270 | xvert[i+2] = vertexposition[kvertexnumber-i-1]->X()*ratio, | |
2271 | yvert[i+2] = vertexposition[kvertexnumber-i-1]->Y()*ratio; | |
2272 | //////////////////////////////////////// | |
2273 | // Defining TGeoXTru PolyGone | |
2274 | //////////////////////////////////////// | |
2275 | coolingtubearcshape[0]->DefinePolygon(nedges+2,xvert,yvert); | |
2276 | coolingtubearcshape[0]->DefineSection(0,-0.5*fgkCoolingTubeSupportWidth); | |
2277 | coolingtubearcshape[0]->DefineSection(1,0.5*fgkCoolingTubeSupportWidth); | |
2278 | coolingtubearcshape[1] = GetArcShape(2.*phi,fgkCoolingTubeRmin, | |
2279 | fgkCoolingTubeRmax,nedges,fgkCoolingTubeSupportWidth); | |
2280 | TGeoVolume* coolingtubearc[2]; | |
2281 | coolingtubearc[0] = new TGeoVolume("CoolingTubeWaterArcPart", | |
2282 | coolingtubearcshape[0],fSSDCoolingTubeWater); | |
2283 | coolingtubearc[1] = new TGeoVolume("CoolingTubePhynoxArcPart", | |
2284 | coolingtubearcshape[1],fSSDCoolingTubePhynox); | |
2285 | coolingtubearc[0]->SetLineColor(fColorWater); | |
2286 | coolingtubearc[1]->SetLineColor(fColorPhynox); | |
2287 | //////////////////////////////////////////// | |
2288 | // Defining TGeoTubeSeg Part of Cooling Tube | |
2289 | //////////////////////////////////////////// | |
2290 | TGeoTubeSeg* coolingtubesegshape[2]; | |
2291 | coolingtubesegshape[0] = new TGeoTubeSeg(fgkCoolingTubeRmin,fgkCoolingTubeRmax, | |
2292 | 0.5*fgkCoolingTubeSupportWidth,phi,360-phi); | |
2293 | coolingtubesegshape[1] = new TGeoTubeSeg(0.,fgkCoolingTubeRmin, | |
2294 | 0.5*fgkCoolingTubeSupportWidth,phi,360-phi); | |
2295 | TGeoVolume* coolingtubeseg[2]; | |
2296 | coolingtubeseg[0] = new TGeoVolume("CoolingTubePhynoxPart", | |
2297 | coolingtubesegshape[0],fSSDCoolingTubePhynox); | |
2298 | coolingtubeseg[1] = new TGeoVolume("CoolingTubeWaterPart", | |
2299 | coolingtubesegshape[1],fSSDCoolingTubeWater); | |
2300 | coolingtubeseg[0]->SetLineColor(fColorPhynox); | |
2301 | coolingtubeseg[1]->SetLineColor(fColorWater); | |
2302 | ///////////////////////////////////////////////////////////// | |
2303 | // Virtual Volume containing Cooling Tube Support | |
2304 | ///////////////////////////////////////////////////////////// | |
2305 | TGeoXtru* virtualCoolingTubeSupportShape = new TGeoXtru(2); | |
2306 | const Int_t kvirtualvertexnumber = 8; | |
2307 | TVector3* virtualvertex[kvirtualvertexnumber]; | |
2308 | //////////////////////////////////////// | |
2309 | // Positioning the vertices for TGeoXTru | |
2310 | //////////////////////////////////////// | |
2311 | virtualvertex[0] = new TVector3(-fgkCoolingTubeSupportRmax,-fgkCoolingTubeSupportRmax); | |
2312 | virtualvertex[1] = new TVector3(virtualvertex[0]->X(),-virtualvertex[0]->Y()); | |
2313 | virtualvertex[2] = new TVector3(-virtualvertex[0]->X(),virtualvertex[1]->Y()); | |
2314 | virtualvertex[3] = new TVector3(virtualvertex[2]->X(),0.5*fgkCoolingTubeSupportHeight); | |
2315 | virtualvertex[4] = new TVector3(virtualvertex[3]->X()+boxlength,virtualvertex[3]->Y()); | |
2316 | virtualvertex[5] = new TVector3(virtualvertex[4]->X(),-virtualvertex[4]->Y()); | |
2317 | virtualvertex[6] = new TVector3(virtualvertex[3]->X(),-virtualvertex[3]->Y()); | |
2318 | virtualvertex[7] = new TVector3(virtualvertex[2]->X(),-virtualvertex[2]->Y()); | |
2319 | Double_t xmothervertex[kvirtualvertexnumber], ymothervertex[kvirtualvertexnumber]; | |
2320 | for(Int_t i=0; i< kvirtualvertexnumber; i++) | |
2321 | xmothervertex[i] = virtualvertex[i]->X(), | |
2322 | ymothervertex[i] = virtualvertex[i]->Y(); | |
2323 | //////////////////////////////////////// | |
2324 | // Defining TGeoXTru PolyGone | |
2325 | //////////////////////////////////////// | |
2326 | virtualCoolingTubeSupportShape->DefinePolygon(kvirtualvertexnumber,xmothervertex, | |
2327 | ymothervertex); | |
2328 | virtualCoolingTubeSupportShape->DefineSection(0,-0.5*fgkCoolingTubeSupportWidth); | |
2329 | virtualCoolingTubeSupportShape->DefineSection(1,0.5*fgkCoolingTubeSupportWidth); | |
2330 | TGeoVolume* virtualcoolingtubesupport = new TGeoVolume("CoolingTubeSupport", | |
2331 | virtualCoolingTubeSupportShape,fSSDAir); | |
2332 | //////////////////////////////////////// | |
2333 | // Positioning Volumes in Virtual Volume | |
2334 | //////////////////////////////////////// | |
2335 | TGeoRotation* coolingtubesupportrot = new TGeoRotation(); | |
2336 | coolingtubesupportrot->SetAngles(-90.0,0.0,0.0); | |
2337 | virtualcoolingtubesupport->AddNode(coolingtubesupportarc,1,coolingtubesupportrot); | |
2338 | virtualcoolingtubesupport->AddNode(coolingtubesupportbox,1); | |
2339 | virtualcoolingtubesupport->AddNode(coolingtubesupportseg,1); | |
2340 | virtualcoolingtubesupport->AddNode(coolingtubearc[0],1,coolingtubesupportrot); | |
2341 | virtualcoolingtubesupport->AddNode(coolingtubearc[1],1,coolingtubesupportrot); | |
2342 | virtualcoolingtubesupport->AddNode(coolingtubeseg[0],1); | |
2343 | virtualcoolingtubesupport->AddNode(coolingtubeseg[1],1); | |
2344 | ///////////////////////////////////////////////////////////// | |
2345 | // Deallocating memory | |
2346 | ///////////////////////////////////////////////////////////// | |
2347 | delete [] vertexposition; | |
2348 | delete [] xvertexpoints; | |
2349 | delete [] yvertexpoints; | |
2350 | delete [] xvert; | |
2351 | delete [] yvert; | |
2352 | for(Int_t i=0; i< kvirtualvertexnumber; i++) | |
2353 | delete virtualvertex[i]; | |
2354 | ///////////////////////////////////////////////////////////// | |
2355 | return virtualcoolingtubesupport; | |
2356 | } | |
2357 | ///////////////////////////////////////////////////////////////////////////////// | |
2358 | TList* AliITSv11GeometrySSD::GetSSDHybridParts(){ | |
2359 | ///////////////////////////////////////////////////////////// | |
2360 | // Method generating List containing SSD Hybrid Components | |
2361 | ///////////////////////////////////////////////////////////// | |
2362 | TList* ssdhybridlist = new TList(); | |
2363 | const Int_t kssdstiffenernumber = 2; | |
2364 | Double_t ssdstiffenerseparation = fgkSSDSensorLength | |
2365 | - 2.*fgkSSDModuleStiffenerPosition[1] | |
2366 | - fgkSSDStiffenerWidth; | |
2367 | Double_t ssdchipcablesradius[kssdstiffenernumber]; | |
2368 | for(Int_t i=0; i<kssdstiffenernumber; i++) | |
2369 | ssdchipcablesradius[i] = 0.25*(fgkSSDChipCablesHeight[i+2] | |
2370 | - fgkSSDChipCablesHeight[0] | |
2371 | - fgkSSDChipCablesHeight[1]); | |
2372 | ///////////////////////////////////////////////////////////// | |
2373 | // Mother Volumes Containers | |
2374 | ///////////////////////////////////////////////////////////// | |
2375 | const Int_t kmothernumber = 2; | |
2376 | const Int_t kmothervertexnumber = 12; | |
2377 | Double_t xmothervertex[kmothernumber][kmothervertexnumber]; | |
2378 | Double_t ymothervertex[kmothernumber][kmothervertexnumber]; | |
2379 | /////////////////////// | |
2380 | // Setting the vertices | |
2381 | /////////////////////// | |
2382 | xmothervertex[0][0] = -0.5*fgkSSDStiffenerLength; | |
2383 | xmothervertex[0][1] = xmothervertex[0][0]; | |
2384 | xmothervertex[0][2] = fgkSSDFlexLength[0]-0.5*fgkSSDStiffenerLength; | |
2385 | xmothervertex[0][3] = xmothervertex[0][2]; | |
2386 | xmothervertex[0][4] = xmothervertex[0][0]; | |
2387 | xmothervertex[0][5] = xmothervertex[0][4]; | |
2388 | xmothervertex[0][6] = -xmothervertex[0][0]; | |
2389 | xmothervertex[0][7] = xmothervertex[0][6]; | |
2390 | xmothervertex[0][8] = -xmothervertex[0][2]; | |
2391 | xmothervertex[0][9] = xmothervertex[0][8]; | |
2392 | xmothervertex[0][10] = xmothervertex[0][7]; | |
2393 | xmothervertex[0][11] = xmothervertex[0][10]; | |
2394 | for(Int_t i=0; i<kmothervertexnumber; i++) xmothervertex[1][i] = xmothervertex[0][i]; | |
2395 | for(Int_t i = 0; i<kmothernumber; i++){ | |
2396 | ymothervertex[i][0] = -(fgkSSDChipWidth-(0.5*fgkSSDStiffenerWidth-fgkSSDStiffenerToChipDist) | |
2397 | + ssdchipcablesradius[i]+fgkSSDChipCablesWidth[1]+fgkSSDChipCablesWidth[2]); | |
2398 | ymothervertex[i][1] = ssdstiffenerseparation-0.5*fgkSSDStiffenerWidth-fgkSSDFlexWidth[0]; | |
2399 | ymothervertex[i][2] = ymothervertex[i][1]; | |
2400 | ymothervertex[i][3] = ssdstiffenerseparation-0.5*fgkSSDStiffenerWidth; | |
2401 | ymothervertex[i][4] = ymothervertex[i][3]; | |
2402 | ymothervertex[i][5] = ymothervertex[i][4]+0.5*fgkSSDStiffenerWidth-ymothervertex[i][0]; | |
2403 | ymothervertex[i][6] = ymothervertex[i][5]; | |
2404 | ymothervertex[i][7] = 0.5*fgkSSDStiffenerWidth+fgkSSDFlexWidth[0]; | |
2405 | ymothervertex[i][8] = ymothervertex[i][7]; | |
2406 | ymothervertex[i][9] = 0.5*fgkSSDStiffenerWidth; | |
2407 | ymothervertex[i][10] = ymothervertex[i][9]; | |
2408 | ymothervertex[i][11] = ymothervertex[i][0]; | |
2409 | } | |
2410 | TGeoXtru* ssdhybridmothershape[kmothernumber]; | |
2411 | // TGeoVolume* ssdhybridmother[kmothernumber]; | |
2412 | TGeoVolumeAssembly* ssdhybridmother[kmothernumber]; | |
2413 | const char* ssdhybridmothername[kmothernumber] = {"SSDHybridMother1","SSDHybridMother2"}; | |
2414 | for(Int_t i=0; i<kmothernumber; i++){ | |
2415 | ssdhybridmothershape[i] = new TGeoXtru(2); | |
2416 | ssdhybridmothershape[i]->DefinePolygon(kmothervertexnumber,xmothervertex[i], | |
2417 | ymothervertex[i]); | |
2418 | ssdhybridmothershape[i]->DefineSection(0,-0.5*fgkSSDStiffenerHeight-fgkSSDChipHeight | |
2419 | -fgkSSDChipCablesHeight[i+2]); | |
2420 | ssdhybridmothershape[i]->DefineSection(1, 0.5*fgkSSDStiffenerHeight); | |
2421 | // ssdhybridmother[i] = new TGeoVolume(ssdhybridmothername[i],ssdhybridmothershape[i], | |
2422 | // fSSDAir); | |
2423 | ssdhybridmother[i] = new TGeoVolumeAssembly(ssdhybridmothername[i]); | |
2424 | } | |
2425 | ///////////////////////////////////////////////////////////// | |
2426 | // SSD Stiffener | |
2427 | ///////////////////////////////////////////////////////////// | |
2428 | TGeoBBox* ssdstiffenershape = new TGeoBBox("SSDStiffenerShape", | |
2429 | 0.5*fgkSSDStiffenerLength, | |
2430 | 0.5*(fgkSSDStiffenerWidth-fgkSSDTolerance), | |
2431 | 0.5*fgkSSDStiffenerHeight); | |
2432 | TGeoVolume* ssdstiffener = new TGeoVolume("SSDStiffener",ssdstiffenershape, | |
2433 | fSSDStiffenerMedium); | |
2434 | ssdstiffener->SetLineColor(fColorStiffener); | |
2435 | TGeoTranslation* ssdstiffenertrans[kssdstiffenernumber]; | |
2436 | for(Int_t i=0; i<kssdstiffenernumber; i++) | |
2437 | ssdstiffenertrans[i] = new TGeoTranslation(0.,i*ssdstiffenerseparation,0.); | |
2438 | ///////////////////////////////////////////////////////////// | |
2439 | // SSD Chip System | |
2440 | ///////////////////////////////////////////////////////////// | |
2441 | TList* ssdchipsystemlist = GetSSDChipSystem(); | |
2442 | Double_t ssdchipseparation = fgkSSDSensorLength | |
2443 | - 2.*fgkSSDModuleStiffenerPosition[1] | |
2444 | - 2.*(fgkSSDStiffenerWidth-fgkSSDStiffenerToChipDist | |
2445 | - 0.5*fgkSSDChipWidth); | |
2446 | Double_t ssdchipsystemlength = (fgkSSDChipNumber-1)*(fgkSSDChipLength | |
2447 | + fgkSSDChipSeparationLength)+fgkSSDChipCablesLength[1]; | |
2448 | TGeoTranslation* ssdchipsystemtrans = new TGeoTranslation(0.5*fgkSSDChipCablesLength[1] | |
2449 | - 0.5*ssdchipsystemlength, | |
2450 | 0.5*(ssdstiffenerseparation-ssdchipseparation), | |
2451 | - 0.5*(fgkSSDChipHeight+fgkSSDStiffenerHeight)); | |
2452 | //////////////////////////// | |
2453 | // Capacitor 0603-2200 nF | |
2454 | /////////////////////////// | |
2455 | const Int_t knapacitor0603number = 5; | |
2456 | TGeoBBox* capacitor0603shape = new TGeoBBox("Capacitor0603Shape", | |
2457 | 0.5*fgkSSDCapacitor0603Length, | |
2458 | 0.5*(fgkSSDCapacitor0603Width), | |
2459 | 0.5*fgkSSDCapacitor0603Height); | |
2460 | TGeoVolume* capacitor0603 = new TGeoVolume("Capacitor0603",capacitor0603shape, | |
2461 | fSSDStiffener0603CapacitorMedium); | |
2462 | capacitor0603->SetLineColor(fColorAl); | |
2463 | for(Int_t i=0; i<kmothernumber; i++){ | |
2464 | for(Int_t j=0; j<kssdstiffenernumber; j++){ | |
2465 | ssdhybridmother[i]->AddNode(ssdstiffener,j+1,ssdstiffenertrans[j]); | |
2466 | for(Int_t k=1; k<knapacitor0603number+1; k++){ | |
2467 | ssdhybridmother[i]->AddNode(capacitor0603,knapacitor0603number*j+k, | |
2468 | new TGeoTranslation((k-3.)/6*fgkSSDStiffenerLength, | |
2469 | j*ssdstiffenerseparation | |
2470 | + 0.5*((j==0? 1:-1)*fgkSSDStiffenerWidth | |
2471 | + (j==0? -1:+1)*fgkSSDCapacitor0603Width), | |
2472 | - 0.5*(fgkSSDStiffenerHeight+fgkSSDCapacitor0603Height))); | |
2473 | } | |
2474 | } | |
2475 | ssdhybridmother[i]->AddNode((TGeoVolume*)ssdchipsystemlist->At(i),i+1,ssdchipsystemtrans); | |
2476 | ssdhybridlist->Add(ssdhybridmother[i]); | |
2477 | } | |
2478 | ///////////////////////////////////////////////////////////// | |
2479 | // Mother Volume Containing Capacitor Part | |
2480 | ///////////////////////////////////////////////////////////// | |
2481 | const Int_t kcapacitormothernumber = 8; | |
2482 | Double_t xcapacitorvertex[kcapacitormothernumber]; | |
2483 | Double_t ycapacitorvertex[kcapacitormothernumber]; | |
2484 | /////////////////////// | |
2485 | // Setting the vertices | |
2486 | /////////////////////// | |
2487 | xcapacitorvertex[0] = -fgkSSDConnectorPosition[0]+ssdstiffenershape->GetDX(); | |
2488 | xcapacitorvertex[1] = xcapacitorvertex[0]; | |
2489 | xcapacitorvertex[2] = 0.5*fgkSSDFlexHoleWidth; | |
2490 | xcapacitorvertex[3] = xcapacitorvertex[2]; | |
2491 | xcapacitorvertex[4] = xcapacitorvertex[0]; | |
2492 | xcapacitorvertex[5] = xcapacitorvertex[0]; | |
2493 | xcapacitorvertex[6] = -xcapacitorvertex[0]; | |
2494 | xcapacitorvertex[7] = xcapacitorvertex[6]; | |
2495 | ycapacitorvertex[0] = -0.5*fgkSSDStiffenerWidth; | |
2496 | ycapacitorvertex[1] = ssdstiffenerseparation-0.5*fgkSSDStiffenerWidth-fgkSSDFlexHoleLength; | |
2497 | ycapacitorvertex[2] = ycapacitorvertex[1]; | |
2498 | ycapacitorvertex[3] = ycapacitorvertex[2]+fgkSSDFlexHoleLength; | |
2499 | ycapacitorvertex[4] = ycapacitorvertex[3]; | |
2500 | ycapacitorvertex[5] = ycapacitorvertex[4]+fgkSSDStiffenerWidth; | |
2501 | ycapacitorvertex[6] = ycapacitorvertex[5]; | |
2502 | ycapacitorvertex[7] = ycapacitorvertex[0]; | |
2503 | TGeoXtru* ssdhybridcapacitormothershape = new TGeoXtru(2); | |
2504 | ssdhybridcapacitormothershape->DefinePolygon(kcapacitormothernumber,xcapacitorvertex, | |
2505 | ycapacitorvertex); | |
2506 | ssdhybridcapacitormothershape->DefineSection(0,0.5*fgkSSDStiffenerHeight); | |
2507 | ssdhybridcapacitormothershape->DefineSection(1, 0.5*fgkSSDStiffenerHeight+fgkSSDCapacitor1812Height); | |
2508 | // TGeoVolume* ssdhybridcapacitormother = new TGeoVolume("SSDHybridCapacitorMother",ssdhybridcapacitormothershape, | |
2509 | // fSSDAir); | |
2510 | TGeoVolumeAssembly* ssdhybridcapacitormother = new TGeoVolumeAssembly("SSDHybridCapacitorMother"); | |
2511 | //////////////////////////// | |
2512 | // Connector | |
2513 | /////////////////////////// | |
2514 | const Int_t kssdconnectornumber = 2; | |
2515 | TGeoBBox* ssdconnectorshape[kssdconnectornumber]; | |
2516 | Double_t ssdAlconnectororigin[3] = {0.0,0.0,0.5*(fgkSSDStiffenerHeight+fgkSSDConnectorAlHeight)}; | |
2517 | Double_t ssdNiconnectororigin[3] = {0.0,0.0,0.5*(fgkSSDStiffenerHeight+fgkSSDConnectorNiHeight) | |
2518 | + fgkSSDConnectorAlHeight}; | |
2519 | const char* ssdconnectorname[kssdconnectornumber] = {"SSDConnectorAl","SSDConnectorNi"}; | |
2520 | TGeoVolume* ssdconnector[kssdconnectornumber]; | |
2521 | for(Int_t i=0; i<kssdconnectornumber; i++){ | |
2522 | ssdconnectorshape[i] = new TGeoBBox(0.5*fgkSSDConnectorLength, | |
2523 | 0.5*fgkSSDConnectorWidth, | |
2524 | 0.5*((1-i)*fgkSSDConnectorAlHeight | |
2525 | + i*fgkSSDConnectorNiHeight), | |
2526 | i==0? ssdAlconnectororigin : ssdNiconnectororigin); | |
2527 | ssdconnector[i] = new TGeoVolume(ssdconnectorname[i],ssdconnectorshape[i], | |
2528 | i==0 ? fSSDAlTraceFlexMedium | |
2529 | : fSSDStiffenerConnectorMedium); | |
2530 | ssdconnector[i]->SetLineColor(i==0 ? fColorAl : fColorPhynox); | |
2531 | } | |
2532 | TGeoTranslation* ssdconnectortrans[2*kssdconnectornumber]; | |
2533 | ssdconnectortrans[0] = new TGeoTranslation(-ssdstiffenershape->GetDX() | |
2534 | + fgkSSDConnectorPosition[0] | |
2535 | - fgkSSDConnectorSeparation | |
2536 | - 1.5*fgkSSDConnectorLength, | |
2537 | ssdstiffenerseparation+ssdstiffenershape->GetDY() | |
2538 | - fgkSSDConnectorPosition[1] | |
2539 | - ssdconnectorshape[0]->GetDY(),0.0); | |
2540 | ssdconnectortrans[1] = new TGeoTranslation( | |
2541 | - ssdstiffenershape->GetDX() | |
2542 | + fgkSSDConnectorPosition[0] | |
2543 | - 0.5*fgkSSDConnectorLength, | |
2544 | ssdstiffenerseparation+ssdstiffenershape->GetDY() | |
2545 | - fgkSSDConnectorPosition[1] | |
2546 | - ssdconnectorshape[0]->GetDY(),0.0); | |
2547 | ssdconnectortrans[2] = new TGeoTranslation(+ssdstiffenershape->GetDX() | |
2548 | - fgkSSDConnectorPosition[0] | |
2549 | + fgkSSDConnectorSeparation | |
2550 | + 1.5*fgkSSDConnectorLength, | |
2551 | -(ssdstiffenershape->GetDY() | |
2552 | - fgkSSDConnectorPosition[1] | |
2553 | - ssdconnectorshape[0]->GetDY()),0.0); | |
2554 | ssdconnectortrans[3] = new TGeoTranslation(+ssdstiffenershape->GetDX() | |
2555 | - fgkSSDConnectorPosition[0] | |
2556 | + 0.5*fgkSSDConnectorLength, | |
2557 | -(ssdstiffenershape->GetDY() | |
2558 | - fgkSSDConnectorPosition[1] | |
2559 | - ssdconnectorshape[0]->GetDY()),0.0); | |
2560 | for(Int_t i=0; i<2*kssdconnectornumber; i++) | |
2561 | for(Int_t j=0; j<kssdconnectornumber; j++) | |
2562 | ssdhybridcapacitormother->AddNode(ssdconnector[j],i+1,ssdconnectortrans[i]); | |
2563 | //////////////////////////// | |
2564 | // Capacitor 1812-330 nF | |
2565 | /////////////////////////// | |
2566 | Double_t ssdcapacitor1812origin[3] = {0.0,0.0,0.5*(fgkSSDStiffenerHeight+fgkSSDCapacitor1812Height)}; | |
2567 | TGeoBBox* capacitor1812shape = new TGeoBBox("Capacitor1812Shape", | |
2568 | 0.5*fgkSSDCapacitor1812Length, | |
2569 | 0.5*fgkSSDCapacitor1812Width, | |
2570 | 0.5*fgkSSDCapacitor1812Height, | |
2571 | ssdcapacitor1812origin); | |
2572 | TGeoVolume* capacitor1812 = new TGeoVolume("Capacitor1812",capacitor1812shape, | |
2573 | fSSDStiffener1812CapacitorMedium); | |
2574 | capacitor1812->SetLineColor(fColorAl); | |
2575 | TGeoTranslation* capacitor1812trans = new TGeoTranslation(0.0, | |
2576 | 0.5*fgkSSDStiffenerWidth+ssdstiffenerseparation | |
2577 | - capacitor1812shape->GetDY()-fgkSSDConnectorPosition[1],0.0); | |
2578 | ssdhybridcapacitormother->AddNode(capacitor1812,1,capacitor1812trans); | |
2579 | //////////////////////////// | |
2580 | //Hybrid Wire | |
2581 | //////////////////////////// | |
2582 | Double_t wirex = 2.*(fgkSSDConnectorPosition[0]-0.5*fgkSSDStiffenerLength | |
2583 | - 0.5*fgkSSDConnectorLength)-fgkSSDConnectorLength | |
2584 | - fgkSSDConnectorSeparation; | |
2585 | Double_t wirey = ssdstiffenerseparation+fgkSSDStiffenerWidth | |
2586 | - 2.*fgkSSDConnectorPosition[1]-fgkSSDConnectorWidth; | |
2587 | Double_t ssdwireradius = TMath::Sqrt(wirex*wirex+wirey*wirey); | |
2588 | ||
2589 | Double_t wireangle = TMath::ATan(wirex/wirey); | |
2590 | TGeoTube *hybridwireshape = new TGeoTube("HybridWireShape", 0., | |
2591 | fgkSSDWireRadius, 0.5*ssdwireradius); | |
2592 | TGeoVolume* hybridwire = new TGeoVolume("HybridWire",hybridwireshape, | |
2593 | fSSDStiffenerHybridWireMedium); | |
2594 | hybridwire->SetLineColor(fColorPhynox); | |
2595 | TGeoCombiTrans* hybridwirecombitrans[2]; | |
2596 | hybridwirecombitrans[0] = new TGeoCombiTrans("HybridWireCombiTrans1", | |
2597 | 0.5*fgkSSDStiffenerLength-fgkSSDConnectorPosition[0] | |
2598 | + 1.5*fgkSSDConnectorLength+fgkSSDConnectorSeparation, | |
2599 | 0.5*ssdwireradius-0.5*fgkSSDStiffenerWidth | |
2600 | + fgkSSDConnectorPosition[1]+0.5*fgkSSDConnectorWidth, | |
2601 | ssdstiffenershape->GetDZ() | |
2602 | + fgkSSDWireRadius+fgkSSDConnectorAlHeight+fgkSSDConnectorNiHeight, | |
2603 | new TGeoRotation("HybridWireRot1",0.,90.,0.)); | |
2604 | hybridwirecombitrans[1] = new TGeoCombiTrans("HybridWireCombiTrans2", | |
2605 | 0.0, | |
2606 | - 0.5*fgkSSDConnectorWidth+fgkSSDWireRadius, | |
2607 | 0.0, | |
2608 | new TGeoRotation("HybridWireRot2", | |
2609 | - wireangle*TMath::RadToDeg(),0.,0.)); | |
2610 | TGeoHMatrix* hybridwirematrix = new TGeoHMatrix(); | |
2611 | hybridwirematrix->MultiplyLeft(hybridwirecombitrans[0]); | |
2612 | hybridwirematrix->MultiplyLeft(hybridwirecombitrans[1]); | |
2613 | ssdhybridcapacitormother->AddNode(hybridwire,1,hybridwirematrix); | |
2614 | ssdhybridlist->Add(ssdhybridcapacitormother); | |
2615 | ///////////////////////////////////////////////////////////// | |
2616 | // Deallocating memory | |
2617 | ///////////////////////////////////////////////////////////// | |
2618 | delete hybridwirecombitrans[0]; | |
2619 | delete hybridwirecombitrans[1]; | |
2620 | delete ssdchipsystemlist; | |
2621 | return ssdhybridlist; | |
2622 | ///////////////////////////////////////////////////////////// | |
2623 | } | |
2624 | /////////////////////////////////////////////////////////////////////////////// | |
2625 | TGeoVolume* AliITSv11GeometrySSD::GetCoolingBlockSystem(){ | |
2626 | ///////////////////////////////////////////////////////////// | |
2627 | // SSD Cooling Block System | |
2628 | ///////////////////////////////////////////////////////////// | |
2629 | // SSD Cooling Block and Cooling Tube Transformations | |
2630 | ///////////////////////////////////////////////////////////// | |
2631 | TGeoRotation* localcoolingblockrot = new TGeoRotation(); | |
2632 | localcoolingblockrot->SetAngles(0.,90.,0.); | |
2633 | TGeoCombiTrans localcoolingblockmatrix(0.,0.5*fgkSSDCoolingBlockWidth,0.,localcoolingblockrot); | |
2634 | TVector3* coolingblocktransvector; | |
2635 | coolingblocktransvector = new TVector3(fgkSSDModuleSensorSupportDistance | |
2636 | + fgkSSDCoolingBlockLength, | |
2637 | fgkSSDSensorLength | |
2638 | - 2.*fgkSSDModuleStiffenerPosition[1] | |
2639 | - fgkSSDCoolingBlockWidth); | |
2640 | const Int_t kcoolingblocktransnumber = 2; | |
2641 | const Int_t kcoolingblocknumber = 4; | |
2642 | TGeoHMatrix* coolingblockmatrix[kcoolingblocknumber]; | |
2643 | TGeoHMatrix* coolingtubematrix[kcoolingblocknumber]; | |
2644 | TGeoRotation* localcoolingtuberot = new TGeoRotation(); | |
2645 | localcoolingtuberot->SetAngles(0.0,90.0,0.0); | |
2646 | TGeoTranslation* localcoolingtubetrans = new TGeoTranslation(); | |
2647 | localcoolingtubetrans->SetTranslation(0.5*fgkSSDCoolingBlockLength, | |
2648 | 0.5*fgkSSDCoolingBlockWidth, | |
2649 | fgkSSDCoolingBlockHoleCenter); | |
2650 | TGeoCombiTrans localcoolingtubematrix (*localcoolingtubetrans,*localcoolingtuberot); | |
2651 | Double_t coolingtubedistance = fgkCoolingTubeSupportRmax-fgkCoolingTubeSupportRmin; | |
2652 | for(Int_t i=0; i<kcoolingblocktransnumber; i++){ | |
2653 | for(Int_t j=0; j<kcoolingblocktransnumber; j++){ | |
2654 | TGeoTranslation localcoolingblocktrans(i*coolingblocktransvector->X()+2*coolingtubedistance, | |
2655 | j*coolingblocktransvector->Y(), | |
2656 | - 0.5*(fgkSSDCoolingBlockHoleCenter | |
2657 | + fgkCoolingTubeRmax)); | |
2658 | coolingblockmatrix[2*i+j] = new TGeoHMatrix(localcoolingblocktrans*localcoolingblockmatrix); | |
2659 | coolingtubematrix[2*i+j] = new TGeoHMatrix(localcoolingblocktrans*localcoolingtubematrix); | |
2660 | } | |
2661 | } | |
2662 | ///////////////////////////////////////////////////////////// | |
2663 | // Virtual Volume containing CoolingBlock System | |
2664 | ///////////////////////////////////////////////////////////// | |
2665 | TGeoXtru* coolingsystemothershape = new TGeoXtru(2); | |
2666 | const Int_t kmothervertexnumber = 16; | |
2667 | Double_t xmothervertex[kmothervertexnumber]; | |
2668 | Double_t ymothervertex[kmothervertexnumber]; | |
2669 | /////////////////////// | |
2670 | // Setting the vertices | |
2671 | ///////////////////////fgkCoolingTubeSupportRmax | |
2672 | xmothervertex[0] = 0.0,ymothervertex[0] = 0.0; | |
2673 | xmothervertex[1] = xmothervertex[0], ymothervertex[1] = coolingblocktransvector->Y() | |
2674 | + fgkSSDCoolingBlockWidth; | |
2675 | xmothervertex[2] = coolingblocktransvector->X() | |
2676 | + fgkSSDCoolingBlockLength | |
2677 | + 4*coolingtubedistance; | |
2678 | ymothervertex[2] = ymothervertex[1]; | |
2679 | xmothervertex[3] = xmothervertex[2], ymothervertex[3] = ymothervertex[0]; | |
2680 | xmothervertex[4] = xmothervertex[3]-2.*coolingtubedistance-fgkSSDCoolingBlockLength; | |
2681 | ymothervertex[4] = ymothervertex[0]; | |
2682 | xmothervertex[5] = xmothervertex[4], ymothervertex[5] = fgkSSDCoolingBlockWidth; | |
2683 | xmothervertex[6] = xmothervertex[3]-coolingtubedistance; | |
2684 | ymothervertex[6] = ymothervertex[5]; | |
2685 | xmothervertex[7] = xmothervertex[6], ymothervertex[7] = ymothervertex[2] | |
2686 | - fgkSSDCoolingBlockWidth; | |
2687 | xmothervertex[8] = xmothervertex[5], ymothervertex[8] = ymothervertex[7]; | |
2688 | xmothervertex[9] = xmothervertex[8], ymothervertex[9] = ymothervertex[2] | |
2689 | - coolingtubedistance; | |
2690 | xmothervertex[10] = fgkSSDCoolingBlockLength+2.*coolingtubedistance; | |
2691 | ymothervertex[10] = ymothervertex[9]; | |
2692 | xmothervertex[11] = xmothervertex[10], ymothervertex[11] = ymothervertex[8]; | |
2693 | xmothervertex[12] = coolingtubedistance, ymothervertex[12] = ymothervertex[11]; | |
2694 | xmothervertex[13] = xmothervertex[12], ymothervertex[13] = fgkSSDCoolingBlockWidth; | |
2695 | xmothervertex[14] = 2.*coolingtubedistance+fgkSSDCoolingBlockLength; | |
2696 | ymothervertex[14] = ymothervertex[13]; | |
2697 | xmothervertex[15] = xmothervertex[14], ymothervertex[15] = ymothervertex[0]; | |
2698 | ////////////////////////////////////////////////////////// | |
2699 | coolingsystemothershape->DefinePolygon(kmothervertexnumber, | |
2700 | xmothervertex,ymothervertex); | |
2701 | coolingsystemothershape->DefineSection(0,-0.5*(fgkSSDCoolingBlockHoleCenter | |
2702 | + fgkCoolingTubeRmax)); | |
2703 | coolingsystemothershape->DefineSection(1, 0.5*(fgkSSDCoolingBlockHoleCenter | |
2704 | + fgkCoolingTubeRmax)); | |
2705 | TGeoVolume* coolingsystemother = new TGeoVolumeAssembly("CoolingBlockSystem"); | |
2706 | // TGeoVolume* coolingsystemother = new TGeoVolume("CoolingBlockSystem", | |
2707 | // coolingsystemothershape,fSSDAir); | |
2708 | ///////////////////////////////////////////////////////////// | |
2709 | // SSD Cooling Tube Part | |
2710 | ///////////////////////////////////////////////////////////// | |
2711 | TGeoTube* coolingtubeshape[fgkcoolingtubenumber]; | |
2712 | coolingtubeshape[0] = new TGeoTube(fgkCoolingTubeRmin,fgkCoolingTubeRmax, | |
2713 | 0.5*(fgkSSDCoolingBlockWidth-fgkSSDTolerance)); | |
2714 | coolingtubeshape[1] = new TGeoTube(0.0,fgkCoolingTubeRmin, | |
2715 | 0.5*(fgkSSDCoolingBlockWidth-fgkSSDTolerance)); | |
2716 | TGeoVolume* coolingtube[fgkcoolingtubenumber]; | |
2717 | coolingtube[0] = new TGeoVolume("OuterCoolingTube",coolingtubeshape[0], | |
2718 | fSSDCoolingTubePhynox); | |
2719 | coolingtube[1] = new TGeoVolume("InnerCoolingTube",coolingtubeshape[1], | |
2720 | fSSDCoolingTubeWater); | |
2721 | coolingtube[0]->SetLineColor(fColorPhynox); | |
2722 | coolingtube[1]->SetLineColor(fColorWater); | |
2723 | TGeoVolume* ssdcoolingblock = GetSSDCoolingBlock(30); | |
2724 | ///////////////////////////////////////////////////////////// | |
2725 | // Adding Cooling block to mother volume | |
2726 | ///////////////////////////////////////////////////////////// | |
2727 | for(Int_t i=0; i<kcoolingblocknumber; i++){ | |
2728 | coolingsystemother->AddNode(ssdcoolingblock,i+1,coolingblockmatrix[i]); | |
2729 | coolingsystemother->AddNode(coolingtube[0],i+1,coolingtubematrix[i]); | |
2730 | coolingsystemother->AddNode(coolingtube[1],i+1,coolingtubematrix[i]); | |
2731 | } | |
2732 | ///////////////////////////////////////////////////////////// | |
2733 | // Deallocating memory | |
2734 | ///////////////////////////////////////////////////////////// | |
2735 | delete coolingblocktransvector; | |
2736 | delete localcoolingblockrot; | |
2737 | delete localcoolingtubetrans; | |
2738 | delete localcoolingtuberot; | |
2739 | ///////////////////////////////////////////////////////////// | |
2740 | // Checking overlaps | |
2741 | ///////////////////////////////////////////////////////////// | |
2742 | //coolingsystemother->CheckOverlaps(0.01); | |
2743 | ///////////////////////////////////////////////////////////// | |
2744 | return coolingsystemother; | |
2745 | } | |
2746 | ///////////////////////////////////////////////////////////////////////////////// | |
2747 | TGeoVolume* AliITSv11GeometrySSD::GetSSDStiffenerFlex()const{ | |
2748 | ///////////////////////////////////////////////////////////// | |
2749 | // SSD Flex | |
2750 | ///////////////////////////////////////////////////////////// | |
2751 | const Int_t kssdflexlayernumber = 2; | |
2752 | TGeoXtru* ssdflexshape[kssdflexlayernumber]; | |
2753 | for(Int_t i=0; i<kssdflexlayernumber; i++) ssdflexshape[i] = new TGeoXtru(2); | |
2754 | const Int_t kmothervertexnumber = 17; | |
2755 | Double_t xmothervertex[kmothervertexnumber]; | |
2756 | Double_t ymothervertex[kmothervertexnumber]; | |
2757 | ///////////////////////////////////////////// | |
2758 | // Auxiliary variables for vertex positioning | |
2759 | ///////////////////////////////////////////// | |
2760 | const Int_t kssdflexboxnumber = 5; | |
2761 | Double_t ssdflexboxlength[kssdflexboxnumber]; | |
2762 | ssdflexboxlength[0] = 0.5*(fgkSSDChipNumber | |
2763 | * fgkSSDChipLength+(fgkSSDChipNumber-1) | |
2764 | * fgkSSDChipSeparationLength | |
2765 | - fgkSSDModuleSensorSupportDistance-fgkSSDFlexHoleLength) | |
2766 | - (fgkSSDFlexLength[0]-fgkSSDFlexLength[1]); | |
2767 | ssdflexboxlength[1] = fgkSSDModuleSensorSupportDistance+fgkSSDFlexHoleLength; | |
2768 | ssdflexboxlength[2] = 0.5*(fgkSSDModuleSensorSupportDistance | |
2769 | - fgkSSDFlexHoleLength-fgkSSDFlexHoleWidth); | |
2770 | ssdflexboxlength[3] = fgkSSDFlexHoleWidth; | |
2771 | ssdflexboxlength[4] = fgkSSDFlexLength[1]-ssdflexboxlength[0] | |
2772 | - ssdflexboxlength[1]; | |
2773 | Double_t ssdflexboxwidth[kssdflexboxnumber]; | |
2774 | ssdflexboxwidth[0] = fgkSSDFlexWidth[0]; | |
2775 | ssdflexboxwidth[1] = fgkSSDFlexWidth[0]-fgkSSDFlexHoleWidth; | |
2776 | ssdflexboxwidth[2] = fgkSSDFlexHoleWidth; | |
2777 | ssdflexboxwidth[3] = ssdflexboxwidth[2]-fgkSSDFlexHoleLength; | |
2778 | ssdflexboxwidth[4] = fgkSSDFlexWidth[0]; | |
2779 | /////////////////////// | |
2780 | // Setting the vertices | |
2781 | /////////////////////// | |
2782 | xmothervertex[0] = 0.0; | |
2783 | xmothervertex[1] = xmothervertex[0]; | |
2784 | xmothervertex[2] = fgkSSDFlexLength[0]-fgkSSDFlexLength[1]; | |
2785 | xmothervertex[3] = xmothervertex[2]+ssdflexboxlength[0]+ssdflexboxlength[1] | |
2786 | + ssdflexboxlength[4]; | |
2787 | xmothervertex[4] = xmothervertex[3]; | |
2788 | xmothervertex[5] = xmothervertex[4]-ssdflexboxlength[4]; | |
2789 | xmothervertex[6] = xmothervertex[5]; | |
2790 | xmothervertex[7] = xmothervertex[6]-fgkSSDFlexHoleLength; | |
2791 | xmothervertex[8] = xmothervertex[7]; | |
2792 | xmothervertex[9] = xmothervertex[8]-ssdflexboxlength[2]; | |
2793 | xmothervertex[10] = xmothervertex[9]; | |
2794 | xmothervertex[11] = xmothervertex[10]-ssdflexboxlength[3]; | |
2795 | xmothervertex[12] = xmothervertex[11]; | |
2796 | xmothervertex[13] = xmothervertex[12]-ssdflexboxlength[2]; | |
2797 | xmothervertex[14] = xmothervertex[13]; | |
2798 | xmothervertex[15] = xmothervertex[14]-fgkSSDFlexHoleLength; | |
2799 | xmothervertex[16] = xmothervertex[15]; | |
2800 | ymothervertex[0] = 0.0; | |
2801 | ymothervertex[1] = fgkSSDFlexWidth[1]; | |
2802 | ymothervertex[2] = fgkSSDFlexWidth[0]; | |
2803 | ymothervertex[3] = ymothervertex[2]; | |
2804 | ymothervertex[4] = ymothervertex[0]; | |
2805 | ymothervertex[5] = ymothervertex[4]; | |
2806 | ymothervertex[6] = ssdflexboxwidth[2]; | |
2807 | ymothervertex[7] = ymothervertex[6]; | |
2808 | ymothervertex[8] = ymothervertex[0]; | |
2809 | ymothervertex[9] = ymothervertex[8]; | |
2810 | ymothervertex[10] = ssdflexboxwidth[2]-ssdflexboxwidth[3]; | |
2811 | ymothervertex[11] = ymothervertex[10]; | |
2812 | ymothervertex[12] = ymothervertex[0]; | |
2813 | ymothervertex[13] = ymothervertex[12]; | |
2814 | ymothervertex[14] = ymothervertex[7]; | |
2815 | ymothervertex[15] = ymothervertex[14]; | |
2816 | ymothervertex[16] = ymothervertex[0]; | |
2817 | ///////////////////////////////////////////////////////////// | |
2818 | // First Mother Volume containing SSDFlex | |
2819 | ///////////////////////////////////////////////////////////// | |
2820 | TGeoXtru* ssdflexmothershape = new TGeoXtru(2); | |
2821 | ssdflexmothershape->DefinePolygon(kmothervertexnumber,xmothervertex, | |
2822 | ymothervertex); | |
2823 | ssdflexmothershape->DefineSection(0,-1.5*fgkSSDFlexHeight[0]-2.*fgkSSDFlexHeight[1]); | |
2824 | ssdflexmothershape->DefineSection(1, 0.5*fgkSSDFlexHeight[0]); | |
2825 | TGeoVolumeAssembly* ssdflexmother = new TGeoVolumeAssembly("SSDFlexMother"); | |
2826 | // TGeoVolume* ssdflexmother = new TGeoVolume("SSDFlexMother",ssdflexmothershape, | |
2827 | // fSSDAir); | |
2828 | ///////////////////////////////////////////////////////////// | |
2829 | // SSDFlex Layer Shapes | |
2830 | ///////////////////////////////////////////////////////////// | |
2831 | for(Int_t i=0; i<kssdflexlayernumber; i++){ | |
2832 | ssdflexshape[i]->DefinePolygon(kmothervertexnumber,xmothervertex, | |
2833 | ymothervertex); | |
2834 | ssdflexshape[i]->DefineSection(0,-0.5*fgkSSDFlexHeight[i]); | |
2835 | ssdflexshape[i]->DefineSection(1, 0.5*fgkSSDFlexHeight[i]); | |
2836 | } | |
2837 | ///////////////////////////////////// | |
2838 | // Setting Layers into Mother Volume | |
2839 | ///////////////////////////////////// | |
2840 | Int_t ssdflexcolor[kssdflexlayernumber] = {fColorAl,fColorPolyhamide}; | |
2841 | TGeoMedium* ssdflexmed[kssdflexlayernumber] = {fSSDAlTraceFlexMedium, | |
2842 | fSSDKaptonFlexMedium}; | |
2843 | const char* ssdflexname[2*kssdflexlayernumber] = {"AlFlexLay1","KaptonFlexLay1", | |
2844 | "AlFlexLay2","KaptonFlexLay2"}; | |
2845 | TGeoVolume* ssdflex[2*kssdflexlayernumber]; | |
2846 | TGeoTranslation* ssdflextrans[2*kssdflexlayernumber]; | |
2847 | for(Int_t i=0; i<2*kssdflexlayernumber; i++){ | |
2848 | ssdflex[i] = new TGeoVolume(ssdflexname[i], | |
2849 | i%2==0 ? ssdflexshape[0] : ssdflexshape[1], | |
2850 | i%2==0 ? ssdflexmed[0] : ssdflexmed[1]); | |
2851 | ssdflex[i]->SetLineColor(i%2==0 ? ssdflexcolor[0] : ssdflexcolor[1]); | |
2852 | ssdflextrans[i] = new TGeoTranslation(0.,0.,-0.5*i*(fgkSSDFlexHeight[0] | |
2853 | + fgkSSDFlexHeight[1])); | |
2854 | ssdflexmother->AddNode(ssdflex[i],1,ssdflextrans[i]); | |
2855 | } | |
2856 | return ssdflexmother; | |
2857 | } | |
2858 | ///////////////////////////////////////////////////////////////////////////////// | |
2859 | TGeoVolume* AliITSv11GeometrySSD::GetSSDEndFlex(){ | |
2860 | ///////////////////////////////////////////////////////////// | |
2861 | // Method generating SSD End Flex | |
2862 | ///////////////////////////////////////// | |
2863 | Double_t ssdflexradiusmax = (fgkSSDFlexLength[3]-fgkSSDFlexLength[2]) | |
2864 | / TMath::Tan(fgkSSDFlexAngle*TMath::DegToRad()); | |
2865 | Double_t ssdflexboxlength = fgkSSDFlexFullLength-2.*fgkSSDFlexAngle | |
2866 | * TMath::DegToRad()*ssdflexradiusmax | |
2867 | - fgkSSDFlexLength[2]-TMath::Pi() | |
2868 | * fgkSSDStiffenerHeight-fgkSSDFlexLength[0] | |
2869 | - 0.1*fgkSSDFlexFullLength; | |
2870 | const Int_t knedges = 20; | |
2871 | const Int_t karcnumber = 2; | |
2872 | TVector3* vertexposition[karcnumber*(knedges+1)]; | |
2873 | Double_t deltangle[karcnumber] = {2.*fgkSSDFlexAngle/knedges,180.0/knedges}; | |
2874 | Double_t angle[karcnumber] = {90.-2.*fgkSSDFlexAngle,180.0}; | |
2875 | Double_t radius[karcnumber] = {ssdflexradiusmax-fgkSSDStiffenerHeight,fgkSSDStiffenerHeight}; | |
2876 | Double_t referenceangle[karcnumber] = {-180.0*TMath::DegToRad(), | |
2877 | - 90.0*TMath::DegToRad()}; | |
2878 | TVector3* referencetrans[karcnumber]; | |
2879 | referencetrans[0] = new TVector3(ssdflexboxlength*CosD(2.*fgkSSDFlexAngle) | |
2880 | + radius[0]*SinD(2.*fgkSSDFlexAngle), | |
2881 | radius[0]); | |
2882 | referencetrans[1] = new TVector3(referencetrans[0]->X() | |
2883 | + fgkSSDFlexLength[2], | |
2884 | - fgkSSDStiffenerHeight); | |
2885 | for(Int_t i=0; i<karcnumber; i++){ | |
2886 | for(Int_t j=0; j<knedges+1; j++){ | |
2887 | vertexposition[j+i*(knedges+1)] = new TVector3(radius[i]*CosD(angle[i]), | |
2888 | radius[i]*SinD(angle[i])); | |
2889 | angle[i] += deltangle[i]*(1.0-2.0*i); | |
2890 | } | |
2891 | } | |
2892 | /////////////////////// | |
2893 | // Setting the vertices | |
2894 | /////////////////////// | |
2895 | const Int_t kendflexlayernumber = 4; | |
2896 | const Int_t kendflexvertexnumber = 4*(knedges+1)+2; | |
2897 | TVector3** vertex[kendflexlayernumber]; | |
2898 | for(Int_t i=0; i<kendflexlayernumber; i++) | |
2899 | vertex[i] = new TVector3*[kendflexvertexnumber]; | |
2900 | TVector3* transvector[kendflexlayernumber+1]; | |
2901 | TVector3* deltatransvector = new TVector3(); | |
2902 | for(Int_t i=0; i<kendflexlayernumber+1; i++) transvector[i] = new TVector3(); | |
2903 | transvector[0]->SetXYZ(0.0,ssdflexboxlength*SinD(2.*fgkSSDFlexAngle) | |
2904 | + radius[0]*(1.0-CosD(2.*fgkSSDFlexAngle)),0.0); | |
2905 | for(Int_t i=1; i<kendflexlayernumber+1; i++){ | |
2906 | deltatransvector->SetXYZ((i%2!=0?fgkSSDFlexHeight[0]:fgkSSDFlexHeight[1]) | |
2907 | * CosD(fgkSSDFlexAngle), | |
2908 | (i%2!=0?fgkSSDFlexHeight[0]:fgkSSDFlexHeight[1]) | |
2909 | * SinD(fgkSSDFlexAngle),0.0); | |
2910 | *transvector[i] = *transvector[i-1]+*deltatransvector; | |
2911 | } | |
2912 | Double_t ratioradius[karcnumber][kendflexlayernumber+1]; | |
2913 | ratioradius[0][0] = 1., ratioradius[1][0] = 1.; | |
2914 | for(Int_t i=0; i<karcnumber; i++){ | |
2915 | for(Int_t j=1; j<kendflexlayernumber+1; j++){ | |
2916 | ratioradius[i][j] = ratioradius[i][j-1]-TMath::Power(-1.0,i) | |
2917 | * (j%2!=0?fgkSSDFlexHeight[0]:fgkSSDFlexHeight[1]) | |
2918 | /radius[i]; | |
2919 | } | |
2920 | } | |
2921 | for(Int_t i=0; i<kendflexlayernumber; i++){ | |
2922 | vertex[i][0] = new TVector3(transvector[i]->X(),transvector[i]->Y()); | |
2923 | vertex[i][1] = new TVector3(transvector[i+1]->X(),transvector[i+1]->Y()); | |
2924 | for(Int_t j=0; j<karcnumber*(knedges+1); j++){ | |
2925 | if(j<(knedges+1)){ | |
2926 | vertex[i][j+2] = new TVector3(vertexposition[j]->X()*ratioradius[0][i+1], | |
2927 | vertexposition[j]->Y()*ratioradius[0][i+1]); | |
2928 | vertex[i][j+2]->RotateZ(referenceangle[0]); | |
2929 | *vertex[i][j+2] += *referencetrans[0]; | |
2930 | vertex[i][4*(knedges+1)-j+1] = | |
2931 | new TVector3(vertexposition[j]->X()*ratioradius[0][i], | |
2932 | vertexposition[j]->Y()*ratioradius[0][i]); | |
2933 | vertex[i][4*(knedges+1)-j+1]->RotateZ(referenceangle[0]); | |
2934 | *vertex[i][4*(knedges+1)-j+1] += *referencetrans[0]; | |
2935 | } | |
2936 | else{ | |
2937 | ||
2938 | vertex[i][j+2] = new TVector3(vertexposition[j]->X()*ratioradius[1][i+1], | |
2939 | vertexposition[j]->Y()*ratioradius[1][i+1]); | |
2940 | vertex[i][j+2]->RotateZ(referenceangle[1]); | |
2941 | *vertex[i][j+2] += *referencetrans[1]; | |
2942 | vertex[i][4*(knedges+1)-j+1] = | |
2943 | new TVector3(vertexposition[j]->X()*ratioradius[1][i], | |
2944 | vertexposition[j]->Y()*ratioradius[1][i]); | |
2945 | vertex[i][4*(knedges+1)-j+1]->RotateZ(referenceangle[1]); | |
2946 | *vertex[i][4*(knedges+1)-j+1] += *referencetrans[1]; | |
2947 | } | |
2948 | } | |
2949 | } | |
2950 | ///////////////////////////////////////////////////////////// | |
2951 | // First Mother Volume containing SSDEndFlex | |
2952 | ///////////////////////////////////////////////////////////// | |
2953 | TGeoXtru* ssdendflexmothershape = new TGeoXtru(2); | |
2954 | Double_t xmothervertex[kendflexvertexnumber]; | |
2955 | Double_t ymothervertex[kendflexvertexnumber]; | |
2956 | xmothervertex[0] = vertex[0][0]->X(); | |
2957 | ymothervertex[0] = vertex[0][0]->Y(); | |
2958 | for(Int_t i=1; i<kendflexvertexnumber; i++){ | |
2959 | if(i<2*(knedges+1)+2){ | |
2960 | xmothervertex[i] = vertex[3][i]->X(); | |
2961 | ymothervertex[i] = vertex[3][i]->Y(); | |
2962 | } | |
2963 | else{ | |
2964 | xmothervertex[i] = vertex[0][i]->X(); | |
2965 | ymothervertex[i] = vertex[0][i]->Y(); | |
2966 | } | |
2967 | } | |
2968 | ssdendflexmothershape->DefinePolygon(kendflexvertexnumber, | |
2969 | xmothervertex,ymothervertex); | |
2970 | ssdendflexmothershape->DefineSection(0,-0.5*fgkSSDFlexWidth[0]); | |
2971 | ssdendflexmothershape->DefineSection(1, 0.5*fgkSSDFlexWidth[0]); | |
2972 | // TGeoVolume* ssdendflexmother = new TGeoVolume("SSDEndFlexMother", | |
2973 | // ssdendflexmothershape,fSSDAir); | |
2974 | TGeoVolumeAssembly* ssdendflexmother = new TGeoVolumeAssembly("SSDEndFlexMother"); | |
2975 | ////////////////////////////////////// | |
2976 | // End Flex TGeoXtru Layer Definition | |
2977 | ////////////////////////////////////// | |
2978 | TGeoXtru* ssdendflexshape[kendflexlayernumber]; | |
2979 | TGeoVolume* ssdendflex[kendflexlayernumber]; | |
2980 | for(Int_t i=0; i<kendflexlayernumber; i++) ssdendflexshape[i] = new TGeoXtru(2); | |
2981 | Double_t xvertex[kendflexlayernumber][kendflexvertexnumber]; | |
2982 | Double_t yvertex[kendflexlayernumber][kendflexvertexnumber]; | |
2983 | Int_t ssdendflexcolor[kendflexlayernumber] = {fColorAl,fColorPolyhamide}; | |
2984 | TGeoMedium* ssdendflexmed[kendflexlayernumber] = {fSSDAlTraceFlexMedium, | |
2985 | fSSDKaptonFlexMedium}; | |
2986 | const char* ssdendflexname[kendflexlayernumber] = {"AlEndFlexLay1","KaptonEndFlexLay1", | |
2987 | "AlEndFlexLay2","KaptonEndFlexLay2"}; | |
2988 | for(Int_t i=0; i<kendflexlayernumber; i++){ | |
2989 | for(Int_t j=0; j<4*(knedges+1)+2; j++){ | |
2990 | xvertex[i][j] = vertex[i][j]->X(); | |
2991 | yvertex[i][j] = vertex[i][j]->Y(); | |
2992 | } | |
2993 | ssdendflexshape[i]->DefinePolygon(kendflexvertexnumber,xvertex[i],yvertex[i]); | |
2994 | ssdendflexshape[i]->DefineSection(0,-0.5*fgkSSDFlexWidth[0]); | |
2995 | ssdendflexshape[i]->DefineSection(1, 0.5*fgkSSDFlexWidth[0]); | |
2996 | ssdendflex[i] = new TGeoVolume(ssdendflexname[i],ssdendflexshape[i], | |
2997 | i%2==0 ? ssdendflexmed[0] : ssdendflexmed[1]); | |
2998 | ssdendflex[i]->SetLineColor(i%2==0 ? ssdendflexcolor[0] : ssdendflexcolor[1]); | |
2999 | ssdendflexmother->AddNode(ssdendflex[i],1); | |
3000 | } | |
3001 | ///////////////////////////////////////////////////////////// | |
3002 | // Deallocating memory | |
3003 | ///////////////////////////////////////////////////////////// | |
3004 | for(Int_t i=0; i<karcnumber*(knedges+1); i++) delete vertexposition[i]; | |
3005 | for(Int_t i=0; i<karcnumber; i++) delete referencetrans[i]; | |
3006 | for(Int_t i=0; i<kendflexlayernumber; i++){ | |
3007 | for(Int_t j=0; j<kendflexvertexnumber; j++) delete vertex[i][j]; | |
3008 | delete [] vertex[i]; | |
3009 | } | |
3010 | for(Int_t i=0; i<kendflexlayernumber+1; i++) delete transvector[i]; | |
3011 | delete deltatransvector; | |
3012 | ///////////////////////////////////////////////////////////// | |
3013 | //ssdendflexmother->CheckOverlaps(0.01); | |
3014 | return ssdendflexmother; | |
3015 | } | |
3016 | /////////////////////////////////////////////////////////////////////////////// | |
3017 | TGeoVolume* AliITSv11GeometrySSD::GetSSDMountingBlock(){ | |
3018 | ///////////////////////////////////////////////////////////// | |
3019 | // Method generating the Mounting Block | |
3020 | ///////////////////////////////////////////////////////////// | |
3021 | const Int_t kvertexnumber = 8; | |
3022 | Double_t xvertex[kvertexnumber]; | |
3023 | Double_t yvertex[kvertexnumber]; | |
3024 | xvertex[0] = -0.25*(fgkSSDMountingBlockLength[0]-fgkSSDMountingBlockLength[1]); | |
3025 | xvertex[1] = xvertex[0]; | |
3026 | xvertex[2] = -xvertex[0]; | |
3027 | xvertex[3] = xvertex[2]; | |
3028 | xvertex[4] = xvertex[3]+0.5*(fgkSSDMountingBlockLength[1] | |
3029 | - fgkSSDMountingBlockLength[2]); | |
3030 | xvertex[5] = xvertex[4]; | |
3031 | xvertex[6] = 0.5*fgkSSDMountingBlockLength[0]-xvertex[2] | |
3032 | - 0.5*fgkSSDMountingBlockScrewHoleEdge | |
3033 | - fgkSSDMountingBlockScrewHoleRadius[0]; | |
3034 | xvertex[7] = xvertex[6]; | |
3035 | yvertex[0] = -0.5*fgkCoolingTubeSupportHeight-fgkSSDModuleCoolingBlockToSensor | |
3036 | + fgkSSDMountingBlockHeight[1]-0.5*fgkSSDMountingBlockHeight[0]; | |
3037 | yvertex[1] = 0.5*fgkSSDMountingBlockHeight[0]; | |
3038 | yvertex[2] = yvertex[1]; | |
3039 | yvertex[3] = fgkSSDMountingBlockHeight[1]-yvertex[1]; | |
3040 | yvertex[4] = yvertex[3]; | |
3041 | yvertex[5] = yvertex[2]+fgkSSDMountingBlockHeight[2] | |
3042 | - fgkSSDMountingBlockHeight[0]; | |
3043 | yvertex[6] = yvertex[5]; | |
3044 | yvertex[7] = yvertex[0]; | |
3045 | ||
3046 | /////////////////////////////////////////////////////////////////////// | |
3047 | // TGeoXTru Volume definition for Mounting Block Part | |
3048 | /////////////////////////////////////////////////////////////////////// | |
3049 | TGeoXtru* ssdmountingblockshape = new TGeoXtru(2); | |
3050 | ssdmountingblockshape->DefinePolygon(kvertexnumber,xvertex,yvertex); | |
3051 | ssdmountingblockshape->DefineSection(0,-0.5*fgkSSDMountingBlockWidth); | |
3052 | ssdmountingblockshape->DefineSection(1,0.5*fgkSSDMountingBlockWidth); | |
3053 | TGeoVolume* ssdmountingblock = new TGeoVolume("SSDMountingBlock", | |
3054 | ssdmountingblockshape, | |
3055 | fSSDMountingBlockMedium); | |
3056 | ssdmountingblock->SetLineColor(fColorG10); | |
3057 | TGeoCombiTrans* mountingblockcombitrans = new TGeoCombiTrans(); | |
3058 | mountingblockcombitrans->SetTranslation(2.*xvertex[2]+fgkSSDMountingBlockLength[1],0.,0.); | |
3059 | TGeoRotation* mountingblockrot = new TGeoRotation(); | |
3060 | mountingblockrot->SetAngles(90.,180.,-90.); | |
3061 | mountingblockcombitrans->SetRotation(*mountingblockrot); | |
3062 | ///////////////////////////////////////////////////////////// | |
3063 | // Generating the Mounting Block Screw Vertices | |
3064 | ///////////////////////////////////////////////////////////// | |
3065 | const Int_t kscrewvertexnumber = 15; | |
3066 | Double_t alpha = TMath::ACos(0.5*(fgkSSDMountingBlockHeight[1] | |
3067 | - fgkSSDMountingBlockScrewHoleEdge) | |
3068 | / fgkSSDMountingBlockScrewHoleRadius[0]) | |
3069 | * TMath::RadToDeg(); | |
3070 | Double_t phi0 = 90.+alpha; | |
3071 | Double_t phi = 270.-2*alpha; | |
3072 | Double_t deltaphi = phi/kscrewvertexnumber; | |
3073 | TVector3* screwvertex[kscrewvertexnumber+1]; | |
3074 | for(Int_t i=0; i<kscrewvertexnumber+1; i++) | |
3075 | screwvertex[i] = new TVector3(fgkSSDMountingBlockScrewHoleRadius[0] | |
3076 | *CosD(phi0+i*deltaphi), | |
3077 | fgkSSDMountingBlockScrewHoleRadius[0] | |
3078 | *SinD(phi0+i*deltaphi)); | |
3079 | Double_t xscrewvertex[kscrewvertexnumber+6]; | |
3080 | Double_t yscrewvertex[kscrewvertexnumber+6]; | |
3081 | xscrewvertex[0] = - fgkSSDMountingBlockScrewHoleRadius[0]; | |
3082 | yscrewvertex[0] = -0.5*(fgkSSDMountingBlockWidth | |
3083 | - fgkSSDMountingBlockScrewHoleEdge); | |
3084 | xscrewvertex[1] = xscrewvertex[0]; | |
3085 | yscrewvertex[1] = 0.5*fgkSSDMountingBlockScrewHoleEdge; | |
3086 | xscrewvertex[2] = screwvertex[0]->X(); | |
3087 | yscrewvertex[2] = yscrewvertex[1]; | |
3088 | for(Int_t i=0; i<kscrewvertexnumber+1; i++){ | |
3089 | xscrewvertex[i+3] = screwvertex[i]->X(); | |
3090 | yscrewvertex[i+3] = screwvertex[i]->Y(); | |
3091 | } | |
3092 | xscrewvertex[kscrewvertexnumber+4] = 0.5*fgkSSDMountingBlockScrewHoleEdge; | |
3093 | yscrewvertex[kscrewvertexnumber+4] = yscrewvertex[kscrewvertexnumber+3]; | |
3094 | xscrewvertex[kscrewvertexnumber+5] = xscrewvertex[kscrewvertexnumber+4]; | |
3095 | yscrewvertex[kscrewvertexnumber+5] = yscrewvertex[0]; | |
3096 | TGeoXtru* ssdmountingblockscrewshape = new TGeoXtru(2); | |
3097 | ssdmountingblockscrewshape->DefinePolygon(kscrewvertexnumber+6,xscrewvertex,yscrewvertex); | |
3098 | ssdmountingblockscrewshape->DefineSection(0,yvertex[0]); | |
3099 | ssdmountingblockscrewshape->DefineSection(1,-0.5*fgkSSDMountingBlockHeight[0] | |
3100 | + fgkSSDMountingBlockHeight[2]); | |
3101 | TGeoVolume* ssdmountingblockscrew = new TGeoVolume("SSDMountingBlockScrew", | |
3102 | ssdmountingblockscrewshape, | |
3103 | fSSDMountingBlockMedium); | |
3104 | ssdmountingblockscrew->SetLineColor(fColorG10); | |
3105 | TGeoCombiTrans* ssdmountingblockscrewcombitrans[4]; | |
3106 | for(Int_t i=0; i<4; i++) ssdmountingblockscrewcombitrans[i] = new TGeoCombiTrans(); | |
3107 | ssdmountingblockscrewcombitrans[0]->SetTranslation(-0.5*fgkSSDMountingBlockScrewHoleEdge, | |
3108 | - yscrewvertex[1], | |
3109 | 0.5*fgkSSDMountingBlockHeight[0] | |
3110 | - fgkSSDMountingBlockHeight[2] | |
3111 | + 0.5*(-0.5*fgkSSDMountingBlockHeight[0] | |
3112 | + fgkSSDMountingBlockHeight[2] | |
3113 | - yvertex[0])); | |
3114 | ssdmountingblockscrewcombitrans[1]->SetTranslation(0.5*fgkSSDMountingBlockScrewHoleEdge, | |
3115 | -0.5*fgkSSDMountingBlockScrewHoleEdge, | |
3116 | yscrewvertex[1] | |
3117 | -0.5*(-0.5*fgkSSDMountingBlockHeight[0] | |
3118 | +fgkSSDMountingBlockHeight[2] | |
3119 | -yvertex[0])); | |
3120 | ssdmountingblockscrewcombitrans[2]->SetTranslation(-0.5*fgkSSDMountingBlockScrewHoleEdge, | |
3121 | yscrewvertex[1], | |
3122 | - 0.5*fgkSSDMountingBlockHeight[0] | |
3123 | + fgkSSDMountingBlockHeight[2] | |
3124 | - 0.5*(-0.5*fgkSSDMountingBlockHeight[0] | |
3125 | + fgkSSDMountingBlockHeight[2] | |
3126 | - yvertex[0])); | |
3127 | ssdmountingblockscrewcombitrans[3]->SetTranslation(0.5*fgkSSDMountingBlockScrewHoleEdge, | |
3128 | yscrewvertex[1], | |
3129 | - yscrewvertex[1] | |
3130 | + 0.5*(-0.5*fgkSSDMountingBlockHeight[0] | |
3131 | + fgkSSDMountingBlockHeight[2] | |
3132 | - yvertex[0])); | |
3133 | TGeoRotation* ssdmountingblockscrewrot[4]; | |
3134 | for(Int_t i=0; i<4; i++) ssdmountingblockscrewrot[i] = new TGeoRotation(); | |
3135 | ssdmountingblockscrewrot[1]->SetAngles(90.,-180.,-90.); | |
3136 | ssdmountingblockscrewrot[2]->SetAngles(0.,180.,0.); | |
3137 | ssdmountingblockscrewrot[3]->SetAngles(180.,0.,0.); | |
3138 | for(Int_t i=1; i<4; i++) | |
3139 | ssdmountingblockscrewcombitrans[i]->SetRotation(*ssdmountingblockscrewrot[i]); | |
3140 | TGeoRotation* ssdmountingblockglobalrot = new TGeoRotation(); | |
3141 | ssdmountingblockglobalrot->SetAngles(0.,90.,0.); | |
3142 | TGeoTranslation* ssdmountingblockglobaltrans = new TGeoTranslation(); | |
3143 | ssdmountingblockglobaltrans->SetTranslation(0.5*fgkSSDMountingBlockLength[0] | |
3144 | + xvertex[0],yscrewvertex[1] | |
3145 | - 0.5*(-0.5*fgkSSDMountingBlockHeight[0] | |
3146 | + fgkSSDMountingBlockHeight[2] | |
3147 | - yvertex[0]),0.); | |
3148 | TGeoHMatrix* ssdmountingblockscrewmatrix[4]; | |
3149 | for(Int_t i=0; i<4; i++){ | |
3150 | ssdmountingblockscrewmatrix[i] = | |
3151 | new TGeoHMatrix((*ssdmountingblockglobalrot)*(*ssdmountingblockscrewcombitrans[i])); | |
3152 | ssdmountingblockscrewmatrix[i]->MultiplyLeft(ssdmountingblockglobaltrans); | |
3153 | } | |
3154 | /////////////////////////////////////////////////////////////////////// | |
3155 | // TGeoXtru for Mother Volume | |
3156 | /////////////////////////////////////////////////////////////////////// | |
3157 | const Int_t kvertexmothernumber = 12; | |
3158 | Double_t xmothervertex[kvertexmothernumber]; | |
3159 | Double_t ymothervertex[kvertexmothernumber]; | |
3160 | for(Int_t i=0; i<6; i++){ | |
3161 | xmothervertex[i] = xvertex[i]; | |
3162 | ymothervertex[i] = yvertex[i]; | |
3163 | } | |
3164 | xmothervertex[6] = xvertex[5]+fgkSSDMountingBlockLength[2]; | |
3165 | ymothervertex[6] = ymothervertex[5]; | |
3166 | xmothervertex[7] = xmothervertex[6]; | |
3167 | ymothervertex[7] = ymothervertex[4]; | |
3168 | xmothervertex[8] = xmothervertex[7] | |
3169 | + 0.5*(fgkSSDMountingBlockLength[1] | |
3170 | - fgkSSDMountingBlockLength[2]); | |
3171 | ymothervertex[8] = ymothervertex[4]; | |
3172 | xmothervertex[9] = xmothervertex[8]; | |
3173 | ymothervertex[9] = ymothervertex[2]; | |
3174 | xmothervertex[10] = xvertex[0]+fgkSSDMountingBlockLength[0]; | |
3175 | ymothervertex[10] = ymothervertex[1]; | |
3176 | xmothervertex[11] = xmothervertex[10]; | |
3177 | ymothervertex[11] = ymothervertex[0]; | |
3178 | TGeoXtru* ssdmountingblockmothershape = new TGeoXtru(2); | |
3179 | ssdmountingblockmothershape->DefinePolygon(kvertexmothernumber,xmothervertex,ymothervertex); | |
3180 | ssdmountingblockmothershape->DefineSection(0,-0.5*fgkSSDMountingBlockWidth); | |
3181 | ssdmountingblockmothershape->DefineSection(1,0.5*fgkSSDMountingBlockWidth); | |
3182 | TGeoVolume* ssdmountingblockmother = new TGeoVolume("SSDMountingBlockMother", | |
3183 | ssdmountingblockmothershape, | |
3184 | fSSDAir); | |
3185 | ///////////////////////////////////////////////////////////// | |
3186 | // Placing the Volumes into Mother Volume | |
3187 | ///////////////////////////////////////////////////////////// | |
3188 | ssdmountingblockmother->AddNode(ssdmountingblock,1); | |
3189 | ssdmountingblockmother->AddNode(ssdmountingblock,2,mountingblockcombitrans); | |
3190 | for(Int_t i=0; i<4; i++) | |
3191 | ssdmountingblockmother->AddNode(ssdmountingblockscrew,i+1, | |
3192 | ssdmountingblockscrewmatrix[i]); | |
3193 | ///////////////////////////////////////////////////////////// | |
3194 | // Deallocating memory | |
3195 | ///////////////////////////////////////////////////////////// | |
3196 | delete mountingblockrot; | |
3197 | for(Int_t i=0; i<4; i++) delete ssdmountingblockscrewrot[i]; | |
3198 | delete ssdmountingblockglobalrot; | |
3199 | delete ssdmountingblockglobaltrans; | |
3200 | ///////////////////////////////////////////////////////////// | |
3201 | return ssdmountingblockmother; | |
3202 | } | |
3203 | /////////////////////////////////////////////////////////////////////////////// | |
3204 | TGeoVolume* AliITSv11GeometrySSD::GetMountingBlockClip() const { | |
3205 | ///////////////////////////////////////////////////////////// | |
3206 | // Method generating the Mounting Block Clip | |
3207 | ///////////////////////////////////////////////////////////// | |
3208 | const Int_t kmothervertexnumber = 10; | |
3209 | Double_t xmothervertex[kmothervertexnumber]; | |
3210 | Double_t ymothervertex[kmothervertexnumber]; | |
3211 | xmothervertex[0] = -0.25*(fgkSSDMountingBlockLength[0]-fgkSSDMountingBlockLength[1]) | |
3212 | - 0.5*(fgkSSDSensorWidth-fgkSSDMountingBlockLength[0]); | |
3213 | xmothervertex[1] = xmothervertex[0]; | |
3214 | xmothervertex[2] = xmothervertex[0]+0.5*(fgkMountingBlockClibScrewPosition | |
3215 | - fgkMountingBlockClibScrewRadius); | |
3216 | xmothervertex[3] = xmothervertex[2]; | |
3217 | xmothervertex[4] = xmothervertex[3]+2.*fgkMountingBlockClibScrewRadius; | |
3218 | xmothervertex[5] = xmothervertex[4]; | |
3219 | xmothervertex[6] = xmothervertex[0]+fgkMountingBlockClipLength; | |
3220 | xmothervertex[7] = xmothervertex[6]; | |
3221 | xmothervertex[8] = -0.25*(fgkSSDMountingBlockLength[0]-fgkSSDMountingBlockLength[1]); | |
3222 | xmothervertex[9] = xmothervertex[8]; | |
3223 | ymothervertex[0] = -0.5*fgkCoolingTubeSupportHeight-fgkSSDModuleCoolingBlockToSensor | |
3224 | + fgkSSDMountingBlockHeight[1]-0.5*fgkSSDMountingBlockHeight[0]; | |
3225 | ymothervertex[1] = 0.5*fgkSSDMountingBlockHeight[0]+fgkMountingBlockClipThickness; | |
3226 | ymothervertex[2] = ymothervertex[1]; | |
3227 | ymothervertex[3] = ymothervertex[2]+(fgkSSDMountingBlockHeight[1] | |
3228 | - fgkSSDMountingBlockHeight[0]-fgkMountingBlockClipThickness | |
3229 | - 0.5*fgkCoolingTubeSupportHeight-fgkCoolingTubeSupportRmax); | |
3230 | ymothervertex[4] = ymothervertex[3]; | |
3231 | ymothervertex[5] = ymothervertex[2]; | |
3232 | ymothervertex[6] = ymothervertex[5]; | |
3233 | ymothervertex[7] = ymothervertex[6]-fgkMountingBlockClipThickness; | |
3234 | ymothervertex[8] = ymothervertex[7]; | |
3235 | ymothervertex[9] = ymothervertex[0]; | |
3236 | ||
3237 | /////////////////////////////////////////////////////////////////////// | |
3238 | // TGeoXTru Volume definition for Mounting Block Clip Part | |
3239 | /////////////////////////////////////////////////////////////////////// | |
3240 | TGeoXtru* ssdmountingblockclipshape = new TGeoXtru(2); | |
3241 | ssdmountingblockclipshape->DefinePolygon(kmothervertexnumber,xmothervertex,ymothervertex); | |
3242 | ssdmountingblockclipshape->DefineSection(0,0.5*fgkSSDMountingBlockWidth-fgkMountingBlockSupportWidth[0]); | |
3243 | ssdmountingblockclipshape->DefineSection(1,0.5*fgkSSDMountingBlockWidth); | |
3244 | TGeoVolume* ssdmountingblockclip = new TGeoVolume("SSDMountingBlockClip", | |
3245 | ssdmountingblockclipshape,fSSDAir); | |
3246 | ssdmountingblockclip->SetLineColor(4); | |
3247 | /////////////////////////////////////////////////////////////////////// | |
3248 | // TGeoXTru Volume definition for Clip | |
3249 | /////////////////////////////////////////////////////////////////////// | |
3250 | const Int_t kclipvertexnumber = 6; | |
3251 | Double_t xclipvertex[kclipvertexnumber]; | |
3252 | Double_t yclipvertex[kclipvertexnumber]; | |
3253 | xclipvertex[0] = xmothervertex[0]; | |
3254 | xclipvertex[1] = xclipvertex[0]; | |
3255 | xclipvertex[2] = xmothervertex[6]; | |
3256 | xclipvertex[3] = xclipvertex[2]; | |
3257 | xclipvertex[4] = xclipvertex[0]+fgkMountingBlockClipThickness; | |
3258 | xclipvertex[5] = xclipvertex[4]; | |
3259 | yclipvertex[0] = ymothervertex[0]; | |
3260 | yclipvertex[1] = ymothervertex[1]; | |
3261 | yclipvertex[2] = yclipvertex[1]; | |
3262 | yclipvertex[3] = yclipvertex[1]-fgkMountingBlockClipThickness; | |
3263 | yclipvertex[4] = yclipvertex[3]; | |
3264 | yclipvertex[5] = yclipvertex[0]; | |
3265 | TGeoXtru* clipshape = new TGeoXtru(2); | |
3266 | clipshape->DefinePolygon(kclipvertexnumber,xclipvertex,yclipvertex); | |
3267 | clipshape->DefineSection(0,0.5*fgkSSDMountingBlockWidth-fgkMountingBlockClibWidth); | |
3268 | clipshape->DefineSection(1,0.5*fgkSSDMountingBlockWidth-fgkMountingBlockSupportWidth[0] | |
3269 | + fgkMountingBlockClibWidth); | |
3270 | TGeoVolume* clip = new TGeoVolume("SSDClip",clipshape,fSSDMountingBlockMedium); | |
3271 | clip->SetLineColor(18); | |
3272 | /////////////////////////////////////////////////////////////////////// | |
3273 | // Ladder Support Piece | |
3274 | /////////////////////////////////////////////////////////////////////// | |
3275 | const Int_t ksupportvertexnumber = 4; | |
3276 | Double_t xsupportvertex[ksupportvertexnumber]; | |
3277 | Double_t ysupportvertex[ksupportvertexnumber]; | |
3278 | xsupportvertex[0] = xclipvertex[5]; | |
3279 | xsupportvertex[1] = xsupportvertex[0]; | |
3280 | xsupportvertex[2] = xmothervertex[9]; | |
3281 | xsupportvertex[3] = xsupportvertex[2]; | |
3282 | ysupportvertex[0] = yclipvertex[0]; | |
3283 | ysupportvertex[1] = yclipvertex[3]; | |
3284 | ysupportvertex[2] = ysupportvertex[1]; | |
3285 | ysupportvertex[3] = ysupportvertex[0]; | |
3286 | TGeoXtru* supportshape = new TGeoXtru(2); | |
3287 | supportshape->DefinePolygon(ksupportvertexnumber,xsupportvertex,ysupportvertex); | |
3288 | supportshape->DefineSection(0,0.5*fgkSSDMountingBlockWidth-fgkMountingBlockSupportWidth[0]); | |
3289 | supportshape->DefineSection(1,0.5*fgkSSDMountingBlockWidth); | |
3290 | TGeoVolume* support = new TGeoVolume("RingSupport",supportshape,fSSDMountingBlockMedium); | |
3291 | support->SetLineColor(9); | |
3292 | /////////////////////////////////////////////////////////////////////// | |
3293 | // TGeoXTru Volume definition for Screw | |
3294 | /////////////////////////////////////////////////////////////////////// | |
3295 | Double_t radius[2] = {fgkMountingBlockClibScrewRadius, | |
3296 | 0.5*fgkMountingBlockClibScrewRadius}; | |
3297 | Int_t edgesnumber[2] = {50,6}; | |
3298 | Double_t section[2] = {-0.5*(ymothervertex[3]-ymothervertex[2]), | |
3299 | +0.5*(ymothervertex[3]-ymothervertex[2])}; | |
3300 | TGeoShape* clipscrewshape = GetScrewShape(radius,edgesnumber,section); | |
3301 | TGeoVolume* clipscrew = new TGeoVolume("ClipScrewShape",clipscrewshape,fSSDSupportRingAl); | |
3302 | clipscrew->SetLineColor(12); | |
3303 | TGeoRotation* screwrot = new TGeoRotation(); | |
3304 | screwrot->SetAngles(0.,90.,0.); | |
3305 | TGeoTranslation* screwtrans = new TGeoTranslation(); | |
3306 | screwtrans->SetTranslation(xmothervertex[3]+fgkMountingBlockClibScrewRadius, | |
3307 | 0.5*(ymothervertex[3]+ymothervertex[2]), | |
3308 | 0.5*fgkSSDMountingBlockWidth+ | |
3309 | -0.5*fgkMountingBlockSupportWidth[0]); | |
3310 | TGeoCombiTrans* screwcombitrans = new TGeoCombiTrans(*screwtrans,*screwrot); | |
3311 | /////////////////////////////////////////////////////////////////////// | |
3312 | // Placing the Volumes | |
3313 | /////////////////////////////////////////////////////////////////////// | |
3314 | ssdmountingblockclip->AddNode(clip,1); | |
3315 | ssdmountingblockclip->AddNode(support,1); | |
3316 | ssdmountingblockclip->AddNode(clipscrew,1,screwcombitrans); | |
3317 | ///////////////////////////////////////////////////////////// | |
3318 | // Deallocating memory | |
3319 | ///////////////////////////////////////////////////////////// | |
3320 | delete screwtrans; | |
3321 | delete screwrot; | |
3322 | ///////////////////////////////////////////////////////////// | |
3323 | return ssdmountingblockclip; | |
3324 | } | |
3325 | /////////////////////////////////////////////////////////////////////////////// | |
3326 | TList* AliITSv11GeometrySSD::GetCoolingTubeList()const{ | |
3327 | ///////////////////////////////////////////////////////////// | |
3328 | // Method generating the Cooling Tube | |
3329 | ///////////////////////////////////////////////////////////// | |
3330 | TGeoTube** coolingtubeshape[fgkcoolingtubenumber]; | |
3331 | for(Int_t i=0; i<fgkcoolingtubenumber; i++) coolingtubeshape[i] = | |
3332 | new TGeoTube*[2]; | |
3333 | // Ladder Cooling Tubes | |
3334 | coolingtubeshape[0][0] = new TGeoTube(fgkCoolingTubeRmin,fgkCoolingTubeRmax, | |
3335 | 0.25 * (fgkSSDSensorLength-2.*fgkSSDModuleStiffenerPosition[1] | |
3336 | - 2.*fgkSSDCoolingBlockWidth-fgkCoolingTubeSupportWidth) | |
3337 | -0.5*fgkSSDTolerance); | |
3338 | coolingtubeshape[0][1] = new TGeoTube(0.0,fgkCoolingTubeRmin, | |
3339 | coolingtubeshape[0][0]->GetDz()); | |
3340 | coolingtubeshape[1][0] = new TGeoTube(fgkCoolingTubeRmin,fgkCoolingTubeRmax, | |
3341 | 0.5*(fgkSSDModuleStiffenerPosition[1] | |
3342 | - fgkSSDSensorOverlap-fgkSSDTolerance)); | |
3343 | coolingtubeshape[1][1] = new TGeoTube(0.0,fgkCoolingTubeRmin, | |
3344 | coolingtubeshape[1][0]->GetDz()); | |
3345 | coolingtubeshape[2][0] = new TGeoTube(fgkCoolingTubeRmin,fgkCoolingTubeRmax, | |
3346 | 0.5*(fgkSSDModuleStiffenerPosition[1]-fgkSSDTolerance)); | |
3347 | coolingtubeshape[2][1] = new TGeoTube(0.0,fgkCoolingTubeRmin, | |
3348 | coolingtubeshape[2][0]->GetDz()-0.5*fgkSSDTolerance); | |
3349 | // End Ladder Cooling Tubes | |
3350 | TGeoTube** endladdercoolingtubeshape[fgkendladdercoolingtubenumber]; | |
3351 | for(Int_t i=0; i<fgkendladdercoolingtubenumber; i++) | |
3352 | endladdercoolingtubeshape[i] = new TGeoTube*[2]; | |
3353 | endladdercoolingtubeshape[0][0] = new TGeoTube(fgkCoolingTubeRmin,fgkCoolingTubeRmax, | |
3354 | 0.50 * (fgkEndLadderMountingBlockPosition[0] | |
3355 | - fgkendladdercoolingsupportdistance[0]-fgkSSDTolerance)); | |
3356 | endladdercoolingtubeshape[0][1] = new TGeoTube(0.0,fgkCoolingTubeRmin, | |
3357 | endladdercoolingtubeshape[0][0]->GetDz()); | |
3358 | endladdercoolingtubeshape[1][0] = new TGeoTube(fgkCoolingTubeRmin,fgkCoolingTubeRmax, | |
3359 | 0.50 * (fgkendladdercoolingsupportdistance[0] | |
3360 | + fgkendladdercoolingsupportdistance[1] | |
3361 | - fgkCoolingTubeSupportWidth-fgkSSDTolerance)); | |
3362 | endladdercoolingtubeshape[1][1] = new TGeoTube(0.0,fgkCoolingTubeRmin, | |
3363 | endladdercoolingtubeshape[1][0]->GetDz()-0.5*fgkSSDTolerance); | |
3364 | endladdercoolingtubeshape[2][0] = new TGeoTube(fgkCoolingTubeRmin,fgkCoolingTubeRmax, | |
3365 | 0.50 * (fgkEndLadderCarbonFiberLowerJunctionLength[0] | |
3366 | - fgkEndLadderMountingBlockPosition[0] | |
3367 | - fgkendladdercoolingsupportdistance[1] | |
3368 | - fgkCoolingTubeSupportWidth-fgkSSDTolerance)); | |
3369 | endladdercoolingtubeshape[2][1] = new TGeoTube(0.0,fgkCoolingTubeRmin, | |
3370 | endladdercoolingtubeshape[2][0]->GetDz()-0.5*fgkSSDTolerance); | |
3371 | endladdercoolingtubeshape[3][0] = new TGeoTube(fgkCoolingTubeRmin,fgkCoolingTubeRmax, | |
3372 | 0.50 * (fgkMountingBlockToSensorSupport | |
3373 | - 0.50 * (fgkSSDFlexHoleWidth-fgkSSDSensorSideSupportWidth) | |
3374 | - fgkSSDStiffenerWidth-fgkSSDModuleStiffenerPosition[1] | |
3375 | + fgkSSDSensorOverlap | |
3376 | + fgkEndLadderCarbonFiberLowerJunctionLength[1] | |
3377 | - fgkendladdercoolingsupportdistance[2] | |
3378 | - fgkEndLadderMountingBlockPosition[1] | |
3379 | - fgkCoolingTubeSupportWidth-fgkSSDTolerance)); | |
3380 | endladdercoolingtubeshape[3][1] = new TGeoTube(0.0,fgkCoolingTubeRmin, | |
3381 | endladdercoolingtubeshape[3][0]->GetDz()-0.5*fgkSSDTolerance); | |
3382 | endladdercoolingtubeshape[4][0] = new TGeoTube(fgkCoolingTubeRmin,fgkCoolingTubeRmax, | |
3383 | 0.50 * (fgkendladdercoolingsupportdistance[2]-fgkSSDTolerance)); | |
3384 | endladdercoolingtubeshape[4][1] = new TGeoTube(0.0,fgkCoolingTubeRmin, | |
3385 | endladdercoolingtubeshape[4][0]->GetDz()-0.5*fgkSSDTolerance); | |
3386 | // Ladder Cooling Tubes | |
3387 | TGeoVolume** coolingtube[fgkcoolingtubenumber]; | |
3388 | for(Int_t i=0; i<fgkcoolingtubenumber; i++) coolingtube[i] = | |
3389 | new TGeoVolume*[2]; | |
3390 | coolingtube[0][0] = new TGeoVolume("OuterCoolingTube1",coolingtubeshape[0][0], | |
3391 | fSSDCoolingTubePhynox); | |
3392 | coolingtube[0][1] = new TGeoVolume("InnerCoolingTube1",coolingtubeshape[0][1], | |
3393 | fSSDCoolingTubeWater); | |
3394 | coolingtube[1][0] = new TGeoVolume("OuterCoolingTube2",coolingtubeshape[1][0], | |
3395 | fSSDCoolingTubePhynox); | |
3396 | coolingtube[1][1] = new TGeoVolume("InnerCoolingTube2",coolingtubeshape[1][1], | |
3397 | fSSDCoolingTubeWater); | |
3398 | coolingtube[2][0] = new TGeoVolume("OuterCoolingTube3",coolingtubeshape[2][0], | |
3399 | fSSDCoolingTubePhynox); | |
3400 | coolingtube[2][1] = new TGeoVolume("InnerCoolingTube3",coolingtubeshape[2][1], | |
3401 | fSSDCoolingTubeWater); | |
3402 | for(Int_t i=0; i<fgkcoolingtubenumber; i++){ | |
3403 | coolingtube[i][0]->SetLineColor(fColorPhynox); | |
3404 | coolingtube[i][1]->SetLineColor(fColorWater); | |
3405 | } | |
3406 | // End Ladder Cooling Tubes | |
3407 | TGeoVolume** endladdercoolingtube[fgkendladdercoolingtubenumber]; | |
3408 | for(Int_t i=0; i<fgkendladdercoolingtubenumber; i++) | |
3409 | endladdercoolingtube[i] = new TGeoVolume*[2]; | |
3410 | endladdercoolingtube[0][0] = new TGeoVolume("OuterEndLadderCoolingTube1", | |
3411 | endladdercoolingtubeshape[0][0], | |
3412 | fSSDCoolingTubePhynox); | |
3413 | endladdercoolingtube[0][1] = new TGeoVolume("InnerEndlLadderCoolingTube1", | |
3414 | endladdercoolingtubeshape[0][1], | |
3415 | fSSDCoolingTubeWater); | |
3416 | endladdercoolingtube[1][0] = new TGeoVolume("OuterEndLadderCoolingTube2", | |
3417 | endladdercoolingtubeshape[1][0], | |
3418 | fSSDCoolingTubePhynox); | |
3419 | endladdercoolingtube[1][1] = new TGeoVolume("InnerEndlLadderCoolingTube2", | |
3420 | endladdercoolingtubeshape[1][1], | |
3421 | fSSDCoolingTubeWater); | |
3422 | endladdercoolingtube[2][0] = new TGeoVolume("OuterEndLadderCoolingTube3", | |
3423 | endladdercoolingtubeshape[2][0], | |
3424 | fSSDCoolingTubePhynox); | |
3425 | endladdercoolingtube[2][1] = new TGeoVolume("InnerEndlLadderCoolingTube3", | |
3426 | endladdercoolingtubeshape[2][1], | |
3427 | fSSDCoolingTubeWater); | |
3428 | endladdercoolingtube[3][0] = new TGeoVolume("OuterEndLadderCoolingTube4", | |
3429 | endladdercoolingtubeshape[3][0], | |
3430 | fSSDCoolingTubePhynox); | |
3431 | endladdercoolingtube[3][1] = new TGeoVolume("InnerEndlLadderCoolingTube4", | |
3432 | endladdercoolingtubeshape[3][1], | |
3433 | fSSDCoolingTubeWater); | |
3434 | endladdercoolingtube[4][0] = new TGeoVolume("OuterEndLadderCoolingTube5", | |
3435 | endladdercoolingtubeshape[4][0], | |
3436 | fSSDCoolingTubePhynox); | |
3437 | endladdercoolingtube[4][1] = new TGeoVolume("InnerEndlLadderCoolingTube5", | |
3438 | endladdercoolingtubeshape[4][1], | |
3439 | fSSDCoolingTubeWater); | |
3440 | for(Int_t i=0; i<fgkendladdercoolingtubenumber; i++){ | |
3441 | endladdercoolingtube[i][0]->SetLineColor(fColorPhynox); | |
3442 | endladdercoolingtube[i][1]->SetLineColor(fColorWater); | |
3443 | } | |
3444 | ||
3445 | ///////////////////////////////////////////////////////////// | |
3446 | // Virtual Volume containing Cooling Tubes | |
3447 | ///////////////////////////////////////////////////////////// | |
3448 | // Ladder Cooling Tubes | |
3449 | TGeoTube* virtualcoolingtubeshape[fgkcoolingtubenumber]; | |
3450 | for(Int_t i=0; i<fgkcoolingtubenumber; i++) | |
3451 | virtualcoolingtubeshape[i] = new TGeoTube(coolingtubeshape[i][1]->GetRmin(), | |
3452 | coolingtubeshape[i][0]->GetRmax(), | |
3453 | coolingtubeshape[i][0]->GetDz()); | |
3454 | TGeoVolume* virtualcoolingtube[fgkcoolingtubenumber]; | |
3455 | virtualcoolingtube[0] = new TGeoVolume("CoolingTube1",virtualcoolingtubeshape[0], | |
3456 | fSSDAir); | |
3457 | virtualcoolingtube[1] = new TGeoVolume("CoolingTube2",virtualcoolingtubeshape[1], | |
3458 | fSSDAir); | |
3459 | virtualcoolingtube[2] = new TGeoVolume("CoolingTube3",virtualcoolingtubeshape[2], | |
3460 | fSSDAir); | |
3461 | // End Ladder Cooling Tubes | |
3462 | TGeoTube* endladdervirtualcoolingtubeshape[fgkendladdercoolingtubenumber]; | |
3463 | for(Int_t i=0; i<fgkendladdercoolingtubenumber; i++) | |
3464 | endladdervirtualcoolingtubeshape[i] = new TGeoTube(endladdercoolingtubeshape[i][1]->GetRmin(), | |
3465 | endladdercoolingtubeshape[i][0]->GetRmax(), | |
3466 | endladdercoolingtubeshape[i][0]->GetDz()); | |
3467 | TGeoVolume* endladdervirtualcoolingtube[fgkendladdercoolingtubenumber]; | |
3468 | endladdervirtualcoolingtube[0] = new TGeoVolume("EndLadderCoolingTube1", | |
3469 | endladdervirtualcoolingtubeshape[0], | |
3470 | fSSDAir); | |
3471 | endladdervirtualcoolingtube[1] = new TGeoVolume("EndLadderCoolingTube2", | |
3472 | endladdervirtualcoolingtubeshape[1], | |
3473 | fSSDAir); | |
3474 | endladdervirtualcoolingtube[2] = new TGeoVolume("EndLadderCoolingTube3", | |
3475 | endladdervirtualcoolingtubeshape[2], | |
3476 | fSSDAir); | |
3477 | endladdervirtualcoolingtube[3] = new TGeoVolume("EndLadderCoolingTube4", | |
3478 | endladdervirtualcoolingtubeshape[3], | |
3479 | fSSDAir); | |
3480 | endladdervirtualcoolingtube[4] = new TGeoVolume("EndLadderCoolingTube5", | |
3481 | endladdervirtualcoolingtubeshape[4], | |
3482 | fSSDAir); | |
3483 | TList* coolingtubelist = new TList(); | |
3484 | for(Int_t i=0; i<fgkcoolingtubenumber; i++){ | |
3485 | virtualcoolingtube[i]->AddNode(coolingtube[i][0],1); | |
3486 | virtualcoolingtube[i]->AddNode(coolingtube[i][1],1); | |
3487 | coolingtubelist->Add(virtualcoolingtube[i]); | |
3488 | } | |
3489 | endladdervirtualcoolingtube[0]->AddNode(endladdercoolingtube[0][0],1); | |
3490 | endladdervirtualcoolingtube[0]->AddNode(endladdercoolingtube[0][1],1); | |
3491 | coolingtubelist->Add(endladdervirtualcoolingtube[0]); | |
3492 | endladdervirtualcoolingtube[1]->AddNode(endladdercoolingtube[1][0],1); | |
3493 | endladdervirtualcoolingtube[1]->AddNode(endladdercoolingtube[1][1],1); | |
3494 | coolingtubelist->Add(endladdervirtualcoolingtube[1]); | |
3495 | endladdervirtualcoolingtube[2]->AddNode(endladdercoolingtube[2][0],1); | |
3496 | endladdervirtualcoolingtube[2]->AddNode(endladdercoolingtube[2][1],1); | |
3497 | coolingtubelist->Add(endladdervirtualcoolingtube[2]); | |
3498 | endladdervirtualcoolingtube[3]->AddNode(endladdercoolingtube[3][0],1); | |
3499 | endladdervirtualcoolingtube[3]->AddNode(endladdercoolingtube[3][1],1); | |
3500 | coolingtubelist->Add(endladdervirtualcoolingtube[3]); | |
3501 | endladdervirtualcoolingtube[4]->AddNode(endladdercoolingtube[4][0],1); | |
3502 | endladdervirtualcoolingtube[4]->AddNode(endladdercoolingtube[4][1],1); | |
3503 | coolingtubelist->Add(endladdervirtualcoolingtube[4]); | |
3504 | return coolingtubelist; | |
3505 | } | |
3506 | /////////////////////////////////////////////////////////////////////////////// | |
3507 | TGeoVolume* AliITSv11GeometrySSD::GetSSDCoolingBlock(Int_t nedges){ | |
3508 | ///////////////////////////////////////////////////////////// | |
3509 | // Method generating SSD Cooling Block | |
3510 | ///////////////////////////////////////////////////////////// | |
3511 | const Int_t kvertexnumber = 8; | |
3512 | /////////////////////////////////////// | |
3513 | // Vertex Positioning for TGeoXTru | |
3514 | /////////////////////////////////////// | |
3515 | TVector3** vertexposition = new TVector3*[2*kvertexnumber+nedges+1]; | |
3516 | vertexposition[0] = new TVector3(0.0,0.0); | |
3517 | vertexposition[1] = new TVector3(0.0,fgkSSDCoolingBlockHeight[1]); | |
3518 | vertexposition[2] = new TVector3(fgkSSDCoolingBlockHoleLength[1], | |
3519 | vertexposition[1]->Y()); | |
3520 | vertexposition[3] = new TVector3(vertexposition[2]->X(), | |
3521 | vertexposition[2]->Y()+fgkSSDCoolingBlockHeight[2]); | |
3522 | vertexposition[4] = new TVector3(vertexposition[1]->X(),vertexposition[3]->Y()); | |
3523 | vertexposition[5] = new TVector3(vertexposition[4]->X(), | |
3524 | + vertexposition[3]->Y()+fgkSSDCoolingBlockHoleRadius[1]); | |
3525 | vertexposition[6] = new TVector3(Xfrom2Points(vertexposition[5]->X(), | |
3526 | vertexposition[5]->Y(),0.5*(fgkSSDCoolingBlockLength | |
3527 | - fgkSSDCoolingBlockHoleLength[0] | |
3528 | - 4.*fgkSSDCoolingBlockHoleRadius[1]), | |
3529 | fgkSSDCoolingBlockHeight[0] | |
3530 | - fgkSSDCoolingBlockHoleRadius[1], | |
3531 | fgkSSDCoolingBlockHeight[0]),fgkSSDCoolingBlockHeight[0]); | |
3532 | vertexposition[7] = new TVector3(0.5*(fgkSSDCoolingBlockLength | |
3533 | - fgkSSDCoolingBlockHoleLength[0]), | |
3534 | vertexposition[6]->Y()); | |
3535 | Double_t alpha = TMath::ACos(0.5*fgkSSDCoolingBlockHoleLength[0] | |
3536 | / fgkSSDCoolingBlockHoleRadius[0])*TMath::RadToDeg(); | |
3537 | Double_t phi = 180.-alpha; | |
3538 | Double_t psi = 180.+2.*alpha; | |
3539 | Double_t deltapsi = psi/nedges; | |
3540 | Double_t radius = fgkSSDCoolingBlockHoleRadius[0]/CosD(0.5*deltapsi); | |
3541 | TVector3* transvector = new TVector3(0.5*fgkSSDCoolingBlockLength, | |
3542 | fgkSSDCoolingBlockHoleCenter); | |
3543 | for(Int_t i=0; i<nedges+1; i++){ | |
3544 | vertexposition[kvertexnumber+i] = new TVector3(radius*CosD(phi+i*deltapsi), | |
3545 | radius*SinD(phi+i*deltapsi)); | |
3546 | *vertexposition[kvertexnumber+i] += (*transvector); | |
3547 | } | |
3548 | Double_t param[4] = {1.0,0.0,0.0,-0.5*fgkSSDCoolingBlockLength}; | |
3549 | for(Int_t i=0; i<kvertexnumber; i++) | |
3550 | vertexposition[kvertexnumber+nedges+1+i] = | |
3551 | GetReflection(vertexposition[kvertexnumber-1-i],param); | |
3552 | /////////////////////////////////////////////////////////////////////// | |
3553 | // TGeoXTru Volume definition for Cooling Tube Support Arc Part | |
3554 | /////////////////////////////////////////////////////////////////////// | |
3555 | TGeoXtru* ssdcoolingblockshape = new TGeoXtru(2); | |
3556 | Double_t* xvertexpoints = new Double_t[2*kvertexnumber+nedges+1]; | |
3557 | Double_t* yvertexpoints = new Double_t[2*kvertexnumber+nedges+1]; | |
3558 | for(Int_t i=0; i<2*kvertexnumber+nedges+1; i++){ | |
3559 | xvertexpoints[i] = vertexposition[i]->X(); | |
3560 | yvertexpoints[i] = vertexposition[i]->Y(); | |
3561 | } | |
3562 | ssdcoolingblockshape->DefinePolygon(2*kvertexnumber+nedges+1,xvertexpoints, | |
3563 | yvertexpoints); | |
3564 | ssdcoolingblockshape->DefineSection(0,-0.5*fgkSSDCoolingBlockWidth); | |
3565 | ssdcoolingblockshape->DefineSection(1,0.5*fgkSSDCoolingBlockWidth); | |
3566 | TGeoVolume* ssdcoolingblock = new TGeoVolume("SSDCoolingBlock", | |
3567 | ssdcoolingblockshape, | |
3568 | fSSDAlCoolBlockMedium); | |
3569 | ssdcoolingblock->SetLineColor(fColorAl); | |
3570 | ///////////////////////////////////////////////////////////// | |
3571 | // Deallocating memory | |
3572 | ///////////////////////////////////////////////////////////// | |
3573 | delete [] vertexposition; | |
3574 | delete [] xvertexpoints; | |
3575 | delete [] yvertexpoints; | |
3576 | ///////////////////////////////////////////////////////////// | |
3577 | return ssdcoolingblock; | |
3578 | } | |
3579 | ///////////////////////////////////////////////////////////////////////////////// | |
3580 | TGeoVolume* AliITSv11GeometrySSD::GetSSDChipCables(Double_t SSDChipCablesHeigth, Int_t nedges){ | |
3581 | /////////////////////////////////////////////////////// | |
3582 | const Int_t kssdchipcablesnumber = 2; | |
3583 | const Int_t kssdchipcableslaynumber = 2; | |
3584 | const Int_t kvertexnumber = 4*(nedges+1)+4; | |
3585 | Int_t ssdchipcablescolor[kssdchipcableslaynumber] = {fColorAl,fColorPolyhamide}; | |
3586 | Double_t ssdchipcablesradius[kssdchipcableslaynumber]; | |
3587 | ssdchipcablesradius[0] = 0.25*(SSDChipCablesHeigth | |
3588 | - fgkSSDChipCablesHeight[0] | |
3589 | - fgkSSDChipCablesHeight[1]); | |
3590 | ssdchipcablesradius[1] = ssdchipcablesradius[0]-fgkSSDChipCablesHeight[0]; | |
3591 | Double_t ssdchipcablespiecelength[kssdchipcablesnumber]; | |
3592 | ssdchipcablespiecelength[0] = 0.5*(fgkSSDChipCablesWidth[0] | |
3593 | - 2.*TMath::Pi()*ssdchipcablesradius[0] | |
3594 | - ssdchipcablesradius[0] | |
3595 | - fgkSSDChipCablesWidth[1] | |
3596 | - fgkSSDChipCablesWidth[2]); | |
3597 | ssdchipcablespiecelength[1] = ssdchipcablespiecelength[0] | |
3598 | - 0.5*(fgkSSDModuleStiffenerPosition[1] | |
3599 | + fgkSSDChipCablesHeight[1] | |
3600 | + fgkSSDSensorHeight); | |
3601 | /////////////////////////////////////////////////////// | |
3602 | // Vertex Positioning for TGeoXTrue Layer 1 and Layer 2 | |
3603 | /////////////////////////////////////////////////////// | |
3604 | TVector3** vertexposition[kssdchipcableslaynumber]; | |
3605 | for(Int_t i=0; i<kssdchipcableslaynumber; i++) vertexposition[i] = | |
3606 | new TVector3*[4*(nedges+1)+4]; | |
3607 | Double_t ratio[4]; | |
3608 | ratio[0] = ssdchipcablesradius[1]/ssdchipcablesradius[0]; | |
3609 | ratio[1] = (ssdchipcablesradius[1]-fgkSSDChipCablesHeight[1]) | |
3610 | / ssdchipcablesradius[0]; | |
3611 | ratio[2] = (ssdchipcablesradius[0]+fgkSSDChipCablesHeight[0]) | |
3612 | / ssdchipcablesradius[0]; | |
3613 | ratio[3] = (ssdchipcablesradius[0]+fgkSSDChipCablesHeight[0] | |
3614 | + fgkSSDChipCablesHeight[1]) | |
3615 | / ssdchipcablesradius[0]; | |
3616 | Double_t phi = 180.; | |
3617 | Double_t deltaphi = 180./nedges; | |
3618 | Double_t angle = 0.0; | |
3619 | Double_t **xvertexpoints = new Double_t*[kssdchipcableslaynumber]; | |
3620 | Double_t **yvertexpoints = new Double_t*[kssdchipcableslaynumber]; | |
3621 | for(Int_t i=0; i<kssdchipcableslaynumber;i++){ | |
3622 | xvertexpoints[i] = new Double_t[kvertexnumber]; | |
3623 | yvertexpoints[i] = new Double_t[kvertexnumber]; | |
3624 | } | |
3625 | TVector3* vertex = new TVector3(); | |
3626 | TVector3* transvector[kssdchipcableslaynumber]; | |
3627 | transvector[0] = new TVector3(fgkSSDChipWidth, | |
3628 | SSDChipCablesHeigth-ssdchipcablesradius[0]); | |
3629 | transvector[1] = new TVector3(); | |
3630 | TGeoXtru* ssdchipcableshape[kssdchipcableslaynumber*kssdchipcableslaynumber]; | |
3631 | TGeoVolume* ssdchipcable[kssdchipcableslaynumber*kssdchipcableslaynumber]; | |
3632 | const char* ssdchipcablename[kssdchipcableslaynumber*kssdchipcableslaynumber] = | |
3633 | {"SSDChipcableAllay1Left","SSDChipcableKaptonlay2Left", | |
3634 | "SSDChipcableAllay1Right","SSDChipcableKaptonlay2Right"}; | |
3635 | for(Int_t k=0; k<kssdchipcablesnumber; k++){ | |
3636 | transvector[1]->SetX(fgkSSDChipWidth-ssdchipcablespiecelength[k]); | |
3637 | transvector[1]->SetY(ssdchipcablesradius[0] | |
3638 | + fgkSSDChipCablesHeight[0] | |
3639 | + fgkSSDChipCablesHeight[1]); | |
3640 | for(Int_t i=0; i<kssdchipcableslaynumber; i++){ | |
3641 | vertexposition[i][0] = new TVector3(0.,SSDChipCablesHeigth | |
3642 | - fgkSSDChipCablesHeight[0]-i*fgkSSDChipCablesHeight[1]); | |
3643 | vertexposition[i][1] = new TVector3(0.,SSDChipCablesHeigth | |
3644 | - i*fgkSSDChipCablesHeight[0]); | |
3645 | vertexposition[i][2*(nedges+1)+2] = | |
3646 | new TVector3(fgkSSDChipWidth+ssdchipcablesradius[0] | |
3647 | + fgkSSDChipCablesWidth[1] | |
3648 | + fgkSSDChipCablesWidth[2], | |
3649 | ((1.-i)*fgkSSDChipCablesHeight[i] | |
3650 | + fgkSSDChipCablesHeight[1])); | |
3651 | vertexposition[i][2*(nedges+1)+3] = | |
3652 | new TVector3(vertexposition[i][2*(nedges+1)+2]->X(), | |
3653 | vertexposition[i][2*(nedges+1)+2]->Y() | |
3654 | - fgkSSDChipCablesHeight[i]); | |
3655 | for(Int_t j=0; j<nedges+1; j++){ | |
3656 | angle = 0.5*phi+TMath::Power(-1,i+1)*j*deltaphi; | |
3657 | vertex->SetX(ssdchipcablesradius[0]*CosD(angle)); | |
3658 | vertex->SetY(ssdchipcablesradius[0]*SinD(angle)); | |
3659 | vertexposition[0][(nedges+1)*i+j+2] = | |
3660 | new TVector3(*vertex+*transvector[i]); | |
3661 | vertexposition[1][(nedges+1)*i+j+2] = | |
3662 | new TVector3(vertex->X()*ratio[2*i]+transvector[i]->X(), | |
3663 | vertex->Y()*ratio[2*i]+transvector[i]->Y()); | |
3664 | vertexposition[0][(4-i)*(nedges+1)+4-j-1] = | |
3665 | new TVector3(*vertexposition[1][(nedges+1)*i+j+2]); | |
3666 | vertexposition[1][(4-i)*(nedges+1)+4-j-1] = | |
3667 | new TVector3(vertex->X()*ratio[2*i+1] | |
3668 | + transvector[i]->X(), | |
3669 | vertex->Y()*ratio[2*i+1] | |
3670 | + transvector[i]->Y()); | |
3671 | } | |
3672 | } | |
3673 | for(Int_t i=0; i<kssdchipcableslaynumber; i++){ | |
3674 | for(Int_t j=0; j<kvertexnumber; j++){ | |
3675 | xvertexpoints[i][j] = vertexposition[i][j]->X(); | |
3676 | yvertexpoints[i][j] = vertexposition[i][j]->Y(); | |
3677 | } | |
3678 | ssdchipcableshape[kssdchipcablesnumber*k+i] = new TGeoXtru(2); | |
3679 | ssdchipcableshape[kssdchipcablesnumber*k+i]->DefinePolygon(kvertexnumber, | |
3680 | xvertexpoints[i],yvertexpoints[i]); | |
3681 | ssdchipcableshape[kssdchipcablesnumber*k+i]->DefineSection(0,-0.5*fgkSSDChipCablesLength[1]); | |
3682 | ssdchipcableshape[kssdchipcablesnumber*k+i]->DefineSection(1,+0.5*fgkSSDChipCablesLength[1]); | |
3683 | ssdchipcable[kssdchipcablesnumber*k+i] = | |
3684 | new TGeoVolume(ssdchipcablename[kssdchipcablesnumber*k+i], | |
3685 | ssdchipcableshape[kssdchipcablesnumber*k+i], | |
3686 | (kssdchipcablesnumber*k+i)%2==0? | |
3687 | fSSDAlTraceChipCableMedium:fSSDKaptonChipCableMedium); | |
3688 | ssdchipcable[kssdchipcablesnumber*k+i]->SetLineColor(ssdchipcablescolor[i]); | |
3689 | } | |
3690 | for(Int_t i=0; i<kssdchipcableslaynumber; i++) | |
3691 | for(Int_t j=0; j<kvertexnumber; j++) delete vertexposition[i][j]; | |
3692 | } | |
3693 | ///////////////////////////////////////////////////////////// | |
3694 | // Mother Volume definition | |
3695 | ///////////////////////////////////////////////////////////// | |
3696 | Double_t ssdchipseparation = fgkSSDSensorLength | |
3697 | - 2.*fgkSSDModuleStiffenerPosition[1] | |
3698 | - 2.*(fgkSSDStiffenerWidth-fgkSSDStiffenerToChipDist | |
3699 | - 0.5*fgkSSDChipWidth)-fgkSSDChipWidth; | |
3700 | Double_t boxorigin[3] = {-0.5*ssdchipseparation,0.,0.5*SSDChipCablesHeigth}; | |
3701 | Double_t dx = ssdchipseparation+2.*(fgkSSDChipWidth+ssdchipcablesradius[0] | |
3702 | +fgkSSDChipCablesWidth[1] | |
3703 | +fgkSSDChipCablesWidth[2]); | |
3704 | Double_t dy = fgkSSDChipCablesLength[1]; | |
3705 | Double_t dz = SSDChipCablesHeigth; | |
3706 | new TGeoBBox(0.5*dx,0.5*dy,0.5*dz,boxorigin); | |
3707 | TGeoVolumeAssembly* ssdchipcablesmother = new TGeoVolumeAssembly("SSDChipCablesMother"); | |
3708 | // TGeoVolume* ssdchipcablesmother = new TGeoVolume("SSDChipCablesMother", | |
3709 | // ssdchipcablesmotherbox,fSSDAir); | |
3710 | ///////////////////////////////////////////////////////////// | |
3711 | // Rotation and Translation Definition for positioning | |
3712 | ///////////////////////////////////////////////////////////// | |
3713 | TGeoRotation* ssdchipcablesrot[5]; | |
3714 | ssdchipcablesrot[0] = new TGeoRotation("",90.,180.,-90); | |
3715 | ssdchipcablesrot[1] = new TGeoRotation("",0.0,90.0,0.0); | |
3716 | ssdchipcablesrot[2] = new TGeoRotation((*ssdchipcablesrot[1])*(*ssdchipcablesrot[0])); | |
3717 | ssdchipcablesrot[3] = new TGeoRotation("",180.,0.0,0.0); | |
3718 | ssdchipcablesrot[4] = new TGeoRotation((*ssdchipcablesrot[3])*(*ssdchipcablesrot[2])); | |
3719 | TGeoCombiTrans* ssdchipcablescombitrans = new TGeoCombiTrans(-ssdchipseparation, | |
3720 | 0.,0.,ssdchipcablesrot[2]); | |
3721 | ssdchipcablesmother->AddNode(ssdchipcable[0],1,ssdchipcablesrot[4]); | |
3722 | ssdchipcablesmother->AddNode(ssdchipcable[1],1,ssdchipcablesrot[4]); | |
3723 | ssdchipcablesmother->AddNode(ssdchipcable[2],1,ssdchipcablescombitrans); | |
3724 | ssdchipcablesmother->AddNode(ssdchipcable[3],1,ssdchipcablescombitrans); | |
3725 | ///////////////////////////////////////////////////////////// | |
3726 | // Deallocating memory | |
3727 | ///////////////////////////////////////////////////////////// | |
3728 | for(Int_t i=0; i<kssdchipcableslaynumber;i++){ | |
3729 | delete [] xvertexpoints[i]; | |
3730 | delete [] yvertexpoints[i]; | |
3731 | } | |
3732 | for(Int_t i=0; i<kssdchipcableslaynumber; i++) delete [] vertexposition[i]; | |
3733 | for(Int_t i=0; i<kssdchipcableslaynumber; i++) delete transvector[i]; | |
3734 | delete vertex; | |
3735 | delete ssdchipcablesrot[0]; | |
3736 | delete ssdchipcablesrot[1]; | |
3737 | delete ssdchipcablesrot[3]; | |
3738 | ///////////////////////////////////////////////////////////// | |
3739 | return ssdchipcablesmother; | |
3740 | } | |
3741 | /////////////////////////////////////////////////////////////////////////////// | |
3742 | TList* AliITSv11GeometrySSD::GetSSDChipSystem(){ | |
3743 | ///////////////////////////////////////////////////////////// | |
3744 | // SSD Chip Assembly | |
3745 | ///////////////////////////////////////////////////////////// | |
3746 | TGeoVolume* ssdchipassembly = GetSSDChips(); | |
3747 | TList* ssdchipsystemlist = new TList(); | |
3748 | // const Int_t knedges = 20; | |
3749 | const Int_t knedges = 5; | |
3750 | const Int_t kchipsystemnumber = 2; | |
3751 | ||
3752 | TGeoVolumeAssembly* chipsystemother[kchipsystemnumber]; | |
3753 | const char* chipsytemothername[kchipsystemnumber] = | |
3754 | {"SSDChipSytemother1","SSDChipSytemother2"}; | |
3755 | for(Int_t i=0; i<kchipsystemnumber; i++){ | |
3756 | chipsystemother[i] = new TGeoVolumeAssembly(chipsytemothername[i]); | |
3757 | } | |
3758 | ///////////////////////////////////////////////////////////// | |
3759 | // SSD Chip Cables | |
3760 | ///////////////////////////////////////////////////////////// | |
3761 | TGeoVolume* ssdchipcables[kchipsystemnumber]; | |
3762 | TGeoRotation** ssdchipcablesrot[kchipsystemnumber]; | |
3763 | TGeoTranslation** ssdchipcablestrans[kchipsystemnumber]; | |
3764 | TGeoCombiTrans** ssdchipcablescombitrans[kchipsystemnumber]; | |
3765 | ////////////////// | |
3766 | for(Int_t i=0; i<kchipsystemnumber; i++){ | |
3767 | ssdchipcables[i] = | |
3768 | GetSSDChipCables(fgkSSDChipCablesHeight[i+2],knedges); | |
3769 | ssdchipcablestrans[i] = new TGeoTranslation*[fgkSSDChipNumber]; | |
3770 | ssdchipcablesrot[i] = new TGeoRotation*[fgkSSDChipNumber]; | |
3771 | ssdchipcablescombitrans[i] = new TGeoCombiTrans*[fgkSSDChipNumber]; | |
3772 | } | |
3773 | for(Int_t i=0; i<kchipsystemnumber; i++){ | |
3774 | for(Int_t j=0; j<fgkSSDChipNumber; j++){ | |
3775 | ssdchipcablestrans[i][j] = new TGeoTranslation(); | |
3776 | ssdchipcablesrot[i][j] = new TGeoRotation(); | |
3777 | ssdchipcablescombitrans[i][j] = new TGeoCombiTrans(); | |
3778 | ssdchipcablesrot[i][j]->SetAngles(-90.0,0.0,0.0); | |
3779 | ssdchipcablestrans[i][j]->SetTranslation(j*(fgkSSDChipLength | |
3780 | + fgkSSDChipSeparationLength), | |
3781 | 0.5*fgkSSDChipWidth, | |
3782 | - 0.5*fgkSSDChipHeight | |
3783 | - fgkSSDChipCablesHeight[i+2]); | |
3784 | ssdchipcablescombitrans[i][j]->SetRotation(*ssdchipcablesrot[i][j]); | |
3785 | ssdchipcablescombitrans[i][j]->SetTranslation(*ssdchipcablestrans[i][j]); | |
3786 | chipsystemother[i]->AddNode(ssdchipcables[i],j+1,ssdchipcablescombitrans[i][j]); | |
3787 | } | |
3788 | chipsystemother[i]->AddNode(ssdchipassembly,i+1); | |
3789 | ssdchipsystemlist->Add(chipsystemother[i]); | |
3790 | } | |
3791 | ///////////////////////////////////////////////////////////// | |
3792 | // Deallocating memory | |
3793 | ///////////////////////////////////////////////////////////// | |
3794 | for(Int_t i=0; i<kchipsystemnumber; i++){ | |
3795 | for(Int_t j=0; j<fgkSSDChipNumber; j++){ | |
3796 | delete ssdchipcablesrot[i][j]; | |
3797 | delete ssdchipcablestrans[i][j]; | |
3798 | } | |
3799 | delete [] ssdchipcablesrot[i]; | |
3800 | delete [] ssdchipcablestrans[i]; | |
3801 | } | |
3802 | ///////////////////////////////////////////////////////////// | |
3803 | return ssdchipsystemlist; | |
3804 | } | |
3805 | ||
3806 | //_____________________________________________________________________________ | |
3807 | TGeoVolume* AliITSv11GeometrySSD::GetSSDChips() const{ | |
3808 | ///////////////////////////////////////////////////////////// | |
3809 | // SSD Chip Assembly Generation | |
3810 | ///////////////////////////////////////////////////////////// | |
3811 | const Int_t kssdchiprownumber = 2; | |
3812 | TGeoBBox* ssdchipcompshape[2]; | |
3813 | ssdchipcompshape[0] = new TGeoBBox("SSDChipCompShape", | |
3814 | 0.5*fgkSSDChipLength, | |
3815 | 0.5*fgkSSDChipWidth, | |
3816 | 0.5*(fgkSSDChipHeight-fgkSSDChipGlueHeight)); | |
3817 | ssdchipcompshape[1] = new TGeoBBox("SSDChipGlueCompShape", | |
3818 | 0.5*fgkSSDChipLength, | |
3819 | 0.5*fgkSSDChipWidth, | |
3820 | 0.5*fgkSSDChipGlueHeight); | |
3821 | TGeoVolume* ssdchipcomp[2]; | |
3822 | ssdchipcomp[0] = new TGeoVolume("SSDChipComp",ssdchipcompshape[0],fSSDChipMedium); | |
3823 | ssdchipcomp[1] = new TGeoVolume("SSDChipGlueComp",ssdchipcompshape[1], | |
3824 | fSSDChipGlueMedium); | |
3825 | ssdchipcomp[0]->SetLineColor(fColorSilicon); | |
3826 | ssdchipcomp[1]->SetLineColor(fColorEpoxy); | |
3827 | TGeoTranslation* ssdchipcomptrans[2]; | |
3828 | ssdchipcomptrans[0] = new TGeoTranslation(0.,0.,-ssdchipcompshape[1]->GetDZ()); | |
3829 | ssdchipcomptrans[1] = new TGeoTranslation(0.,0.,ssdchipcompshape[0]->GetDZ()); | |
3830 | ///////////////////////////////////////////////////////////// | |
3831 | // Virtual Volume containing SSDChip | |
3832 | ///////////////////////////////////////////////////////////// | |
3833 | TGeoBBox* ssdvirtualchipshape = new TGeoBBox("SSDChipShape",0.5*fgkSSDChipLength, | |
3834 | 0.5*fgkSSDChipWidth, | |
3835 | 0.5*fgkSSDChipHeight); | |
3836 | TGeoVolume* ssdchip = new TGeoVolume("SSDChip",ssdvirtualchipshape,fSSDAir); | |
3837 | ///////////////////////////////////////////////////////////// | |
3838 | for(Int_t i=0; i<2; i++) ssdchip->AddNode(ssdchipcomp[i],1,ssdchipcomptrans[i]); | |
3839 | Double_t ssdchipseparation[2] = {fgkSSDChipLength+fgkSSDChipSeparationLength, | |
3840 | fgkSSDSensorLength-2.*fgkSSDModuleStiffenerPosition[1] | |
3841 | - 2.*(fgkSSDStiffenerWidth-fgkSSDStiffenerToChipDist | |
3842 | - 0.5*fgkSSDChipWidth)}; | |
3843 | ///////////////////////////////////////////////////////////// | |
3844 | // Virtual Volume containing SSDChipAssembly | |
3845 | ///////////////////////////////////////////////////////////// | |
3846 | TGeoXtru* ssdchipmothershape = new TGeoXtru(2); | |
3847 | const Int_t kssdmothervertexnumber = 2*fgkSSDChipNumber; | |
3848 | Double_t xmothervertex[kssdmothervertexnumber]; | |
3849 | Double_t ymothervertex[kssdmothervertexnumber]; | |
3850 | /////////////////////// | |
3851 | // Setting the vertices | |
3852 | /////////////////////// | |
3853 | xmothervertex[0] = -0.5*fgkSSDChipLength,ymothervertex[0] = -0.5*fgkSSDChipWidth; | |
3854 | xmothervertex[1] = xmothervertex[0], ymothervertex[1] = ssdchipseparation[1] | |
3855 | - ymothervertex[0]; | |
3856 | xmothervertex[2] = (fgkSSDChipNumber-1)*ssdchipseparation[0]-xmothervertex[0]; | |
3857 | ymothervertex[2] = ymothervertex[1]; | |
3858 | xmothervertex[3] = xmothervertex[2], ymothervertex[3] = ymothervertex[0]; | |
3859 | xmothervertex[4] = ssdchipseparation[0]+xmothervertex[0]; | |
3860 | ymothervertex[4] = ymothervertex[0]; | |
3861 | xmothervertex[5] = xmothervertex[4], ymothervertex[5] = -ymothervertex[4]; | |
3862 | xmothervertex[6] = (fgkSSDChipNumber-1)*ssdchipseparation[0] | |
3863 | + (0.5*fgkSSDChipLength-fgkSSDChipWidth); | |
3864 | ymothervertex[6] = ymothervertex[5]; | |
3865 | xmothervertex[7] = xmothervertex[6], ymothervertex[7] = ymothervertex[2] | |
3866 | - fgkSSDChipWidth; | |
3867 | xmothervertex[8] = -0.5*fgkSSDChipLength+fgkSSDChipWidth; | |
3868 | ymothervertex[8] = ymothervertex[7]; | |
3869 | xmothervertex[9] = -0.5*fgkSSDChipLength+fgkSSDChipWidth; | |
3870 | ymothervertex[9] = ymothervertex[6]; | |
3871 | xmothervertex[10] = -xmothervertex[0], ymothervertex[10] = ymothervertex[9]; | |
3872 | xmothervertex[11] = xmothervertex[10], ymothervertex[11] = ymothervertex[0]; | |
3873 | ////////////////////////////////////////////////////////// | |
3874 | ssdchipmothershape->DefinePolygon(kssdmothervertexnumber, | |
3875 | xmothervertex,ymothervertex); | |
3876 | ssdchipmothershape->DefineSection(0,-0.5*fgkSSDChipHeight); | |
3877 | ssdchipmothershape->DefineSection(1, 0.5*fgkSSDChipHeight); | |
3878 | // TGeoVolume* ssdchipmother = new TGeoVolume("SSDChipContainer", | |
3879 | // ssdchipmothershape,fSSDAir); | |
3880 | TGeoVolumeAssembly* ssdchipmother = new TGeoVolumeAssembly("SSDChipContainer"); | |
3881 | ///////////////////////////////////////////////////////////// | |
3882 | for(Int_t i=0; i<kssdchiprownumber; i++) | |
3883 | for(Int_t j=0; j<fgkSSDChipNumber; j++) | |
3884 | ssdchipmother->AddNode(ssdchip,fgkSSDChipNumber*i+j+1, | |
3885 | new TGeoTranslation(j*ssdchipseparation[0],i*ssdchipseparation[1],0.)); | |
3886 | return ssdchipmother; | |
3887 | } | |
3888 | ///////////////////////////////////////////////////////////////////////////////// | |
3889 | TList* AliITSv11GeometrySSD::GetLadderCableSegment(Double_t ssdendladdercablelength){ | |
3890 | ///////////////////////////////////////////////////////////// | |
3891 | // Method returning a List containing pointers to Ladder Cable Volumes | |
3892 | ///////////////////////////////////////////////////////////// | |
3893 | const Int_t kladdercablesegmentnumber = 2; | |
3894 | ///////////////////////////////////////// | |
3895 | // LadderSegmentBBox Volume | |
3896 | ///////////////////////////////////////// | |
3897 | static TGeoBBox* laddercablesegmentbboxshape[kladdercablesegmentnumber] = {0,0}; | |
3898 | const char* laddercablesegmentbboxshapename[kladdercablesegmentnumber] = | |
3899 | {"LadderCableSegmentBBoxShape1","LadderCableSegmentBBoxShape2"}; | |
3900 | ||
3901 | ||
3902 | const char* laddercablesegmentbboxname[kladdercablesegmentnumber] = | |
3903 | {"LadderCableSegmentBBox1","LadderCableSegmentBBox2"}; | |
3904 | static TGeoVolume* laddercablesegmentbbox[kladdercablesegmentnumber]; | |
3905 | ||
3906 | static TGeoTranslation* laddercablesegmentbboxtrans[kladdercablesegmentnumber] = { | |
3907 | new TGeoTranslation("LadderCableSegmentBBoxTrans1", | |
3908 | 0.5*fgkSSDFlexWidth[0], | |
3909 | 0.5*fgkSSDLadderCableWidth, | |
3910 | 0.5*fgkSSDFlexHeight[0]), | |
3911 | new TGeoTranslation("LadderCableSegmentBBoxTrans2", | |
3912 | 0.5*fgkSSDFlexWidth[0], | |
3913 | 0.5*fgkSSDLadderCableWidth, | |
3914 | fgkSSDFlexHeight[0] | |
3915 | +0.5*fgkSSDFlexHeight[1]) | |
3916 | }; | |
3917 | static TGeoVolume* laddercablesegmentbboxassembly = new TGeoVolumeAssembly("LadderCableSegmentBBoxAssembly") ; | |
3918 | static TGeoVolume* laddercablesegmentarbassembly = | |
3919 | new TGeoVolumeAssembly("LadderCableSegmentArbAssembly"); | |
3920 | ||
3921 | static TGeoArb8* laddercablesegmentarbshape[kladdercablesegmentnumber]; | |
3922 | static TGeoVolume* laddercablesegmentarb[kladdercablesegmentnumber]; | |
3923 | ||
3924 | if (laddercablesegmentbboxshape[0] == 0) { | |
3925 | // Initialise static shapes and volumes | |
3926 | for(Int_t i=0; i<kladdercablesegmentnumber; i++) laddercablesegmentbboxshape[i] = | |
3927 | new TGeoBBox(laddercablesegmentbboxshapename[i], | |
3928 | 0.5*fgkSSDFlexWidth[0], | |
3929 | 0.5*fgkSSDLadderCableWidth, | |
3930 | 0.5*fgkSSDFlexHeight[i]); | |
3931 | ||
3932 | for(Int_t i=0; i<kladdercablesegmentnumber; i++){ | |
3933 | laddercablesegmentbbox[i] = | |
3934 | new TGeoVolume(laddercablesegmentbboxname[i], | |
3935 | laddercablesegmentbboxshape[i], | |
3936 | (i==0?fSSDAlTraceLadderCableMedium: | |
3937 | fSSDKaptonLadderCableMedium)); | |
3938 | laddercablesegmentbbox[i]->SetLineColor(i==0 ? fColorAl : | |
3939 | fColorPolyhamide); | |
3940 | } | |
3941 | ||
3942 | for(Int_t i=0; i<kladdercablesegmentnumber; i++) | |
3943 | laddercablesegmentbboxassembly->AddNode(laddercablesegmentbbox[i],1, | |
3944 | laddercablesegmentbboxtrans[i]); | |
3945 | ///////////////////////////////////////// | |
3946 | // LadderSegmentArb8 Volume | |
3947 | ///////////////////////////////////////// | |
3948 | const Int_t kvertexnumber = 4; | |
3949 | TVector3** laddercablesegmentvertexposition[kladdercablesegmentnumber]; | |
3950 | for(Int_t i = 0; i<kladdercablesegmentnumber; i++) laddercablesegmentvertexposition[i] = | |
3951 | new TVector3*[kvertexnumber]; | |
3952 | //Shape Vertex Positioning | |
3953 | for(Int_t i=0; i<kladdercablesegmentnumber; i++){ | |
3954 | laddercablesegmentvertexposition[i][0] = new TVector3(0.,i*fgkSSDFlexHeight[0]); | |
3955 | laddercablesegmentvertexposition[i][1] = new TVector3(fgkSSDLadderCableWidth, | |
3956 | i*fgkSSDFlexHeight[0]); | |
3957 | laddercablesegmentvertexposition[i][2] = new TVector3(0.,fgkSSDFlexHeight[0] | |
3958 | + fgkSSDFlexHeight[1] | |
3959 | + i*fgkSSDFlexHeight[0]); | |
3960 | laddercablesegmentvertexposition[i][3] = | |
3961 | new TVector3(laddercablesegmentvertexposition[i][1]->X(), | |
3962 | laddercablesegmentvertexposition[i][2]->Y()); | |
3963 | } | |
3964 | Double_t laddercablesegmentwidth[2][2] = {{fgkSSDFlexHeight[0],fgkSSDFlexHeight[0]}, | |
3965 | {fgkSSDFlexHeight[1],fgkSSDFlexHeight[1]}}; | |
3966 | const char* laddercablesegmentarbshapename[kladdercablesegmentnumber] = | |
3967 | {"LadderCableSegmentArbShape1","LadderCableSegmentArbShape2"}; | |
3968 | ||
3969 | for(Int_t i = 0; i< kladdercablesegmentnumber; i++) laddercablesegmentarbshape[i] = | |
3970 | GetArbShape(laddercablesegmentvertexposition[i], | |
3971 | laddercablesegmentwidth[i], | |
3972 | fgkCarbonFiberJunctionWidth-fgkSSDFlexWidth[0], | |
3973 | laddercablesegmentarbshapename[i]); | |
3974 | const char* laddercablesegmentarbname[kladdercablesegmentnumber] = | |
3975 | {"LadderCableSegmentArb1","LadderCableSegmentArb2"}; | |
3976 | ||
3977 | for(Int_t i=0; i<kladdercablesegmentnumber; i++){ | |
3978 | laddercablesegmentarb[i] = | |
3979 | new TGeoVolume(laddercablesegmentarbname[i], | |
3980 | laddercablesegmentarbshape[i], | |
3981 | (i==0?fSSDAlTraceLadderCableMedium: | |
3982 | fSSDKaptonLadderCableMedium)); | |
3983 | laddercablesegmentarb[i]->SetLineColor(i==0 ? fColorAl : | |
3984 | fColorPolyhamide); | |
3985 | } | |
3986 | TGeoRotation* laddercablesegmentarbrot[kladdercablesegmentnumber]; | |
3987 | laddercablesegmentarbrot[0] = new TGeoRotation("LadderCableSegmentArbRot1", | |
3988 | 90.,90,-90.); | |
3989 | laddercablesegmentarbrot[1] = new TGeoRotation("LadderCableSegmentArbRot2", | |
3990 | 0.,90.,0.); | |
3991 | TGeoCombiTrans* laddercablesegmentarbcombitrans = | |
3992 | new TGeoCombiTrans("LadderCableSegmentArbCombiTrans", | |
3993 | 0.5*(fgkCarbonFiberJunctionWidth-fgkSSDFlexWidth[0]) | |
3994 | + fgkSSDFlexWidth[0],0.,0., | |
3995 | new TGeoRotation((*laddercablesegmentarbrot[1]) | |
3996 | *(*laddercablesegmentarbrot[0]))); | |
3997 | for(Int_t i=0; i<kladdercablesegmentnumber; i++) | |
3998 | laddercablesegmentarbassembly->AddNode(laddercablesegmentarb[i],1, | |
3999 | laddercablesegmentarbcombitrans); | |
4000 | } // End of static initialisations | |
4001 | ///////////////////////////////////////// | |
4002 | // End Ladder Cable Volume | |
4003 | // Note: this part depends explicitly on the length passed as an argument to the function | |
4004 | ///////////////////////////////////////// | |
4005 | TGeoBBox* ladderendcablesegmentbboxshape[kladdercablesegmentnumber]; | |
4006 | const char* ladderendcablesegmentbboxshapename[kladdercablesegmentnumber] = | |
4007 | {"LadderEndCableSegmentBBoxShape1","LadderEndCableSegmentBBoxShape2"}; | |
4008 | for(Int_t i=0; i<kladdercablesegmentnumber; i++) ladderendcablesegmentbboxshape[i] = | |
4009 | new TGeoBBox(ladderendcablesegmentbboxshapename[i], | |
4010 | 0.5*ssdendladdercablelength, | |
4011 | 0.5*fgkSSDLadderCableWidth, | |
4012 | 0.5*fgkSSDFlexHeight[i]); | |
4013 | const char* ladderendcablesegmentbboxname[kladdercablesegmentnumber] = | |
4014 | {"LadderEndCableSegmentBBox1","LadderEndCableSegmentBBox2"}; | |
4015 | TGeoVolume* ladderendcablesegmentbbox[kladdercablesegmentnumber]; | |
4016 | for(Int_t i=0; i<kladdercablesegmentnumber; i++){ | |
4017 | ladderendcablesegmentbbox[i] = | |
4018 | new TGeoVolume(ladderendcablesegmentbboxname[i], | |
4019 | ladderendcablesegmentbboxshape[i], | |
4020 | (i==0?fSSDAlTraceLadderCableMedium: | |
4021 | fSSDKaptonLadderCableMedium)); | |
4022 | ladderendcablesegmentbbox[i]->SetLineColor(i==0 ? fColorAl : | |
4023 | fColorPolyhamide); | |
4024 | } | |
4025 | TGeoTranslation* ladderendcablesegmentbboxtrans[kladdercablesegmentnumber]; | |
4026 | ladderendcablesegmentbboxtrans[0] = | |
4027 | new TGeoTranslation("LadderEndCableSegmentBBoxTrans0", | |
4028 | 0.5*ssdendladdercablelength, | |
4029 | 0.5*fgkSSDLadderCableWidth, | |
4030 | 0.5*fgkSSDFlexHeight[0]); | |
4031 | ladderendcablesegmentbboxtrans[1] = | |
4032 | new TGeoTranslation("LadderEndCableSegmentBBoxTrans1", | |
4033 | 0.5*ssdendladdercablelength, | |
4034 | 0.5*fgkSSDLadderCableWidth, | |
4035 | fgkSSDFlexHeight[0] | |
4036 | +0.5*fgkSSDFlexHeight[1]); | |
4037 | TGeoVolume* ladderendcablesegmentbboxassembly = | |
4038 | new TGeoVolumeAssembly("LadderEndCableSegmentBBoxAssembly"); | |
4039 | for(Int_t i=0; i<kladdercablesegmentnumber; i++) | |
4040 | ladderendcablesegmentbboxassembly->AddNode(ladderendcablesegmentbbox[i],1, | |
4041 | ladderendcablesegmentbboxtrans[i]); | |
4042 | ///////////////////////////////////////// | |
4043 | TList* laddercablesegmentlist = new TList(); | |
4044 | laddercablesegmentlist->Add(laddercablesegmentbboxassembly); | |
4045 | laddercablesegmentlist->Add(laddercablesegmentarbassembly); | |
4046 | laddercablesegmentlist->Add(ladderendcablesegmentbboxassembly); | |
4047 | return laddercablesegmentlist; | |
4048 | } | |
4049 | ||
4050 | ///////////////////////////////////////////////////////////////////////////////// | |
4051 | TGeoVolume* AliITSv11GeometrySSD::GetLadderCable(Int_t n, Double_t ssdendladdercablelength){ | |
4052 | ///////////////////////////////////////////////////////////// | |
4053 | // Method generating Ladder Cable Volumes Assemblies | |
4054 | ///////////////////////////////////////////////////////////// | |
4055 | TList* laddercablesegmentlist = GetLadderCableSegment(ssdendladdercablelength); | |
4056 | TGeoVolume* laddercable = new TGeoVolumeAssembly("LadderCable"); | |
4057 | for(Int_t i=0; i<n; i++){ | |
4058 | TGeoTranslation* laddercabletrans = new TGeoTranslation( | |
4059 | i*(fgkCarbonFiberJunctionWidth), | |
4060 | fgkSSDLadderCableWidth-fgkSSDFlexWidth[0], | |
4061 | i*(fgkSSDFlexHeight[0]+fgkSSDFlexHeight[1])); | |
4062 | laddercable->AddNode((TGeoVolume*)laddercablesegmentlist->At(0),i+1,laddercabletrans); | |
4063 | if(i!=n-1) laddercable->AddNode((TGeoVolume*)laddercablesegmentlist->At(1),i+1,laddercabletrans); | |
4064 | } | |
4065 | TGeoTranslation* endladdercabletrans = new TGeoTranslation("EndLadderCableTrans", | |
4066 | (n-1)*fgkCarbonFiberJunctionWidth+fgkSSDFlexWidth[0], | |
4067 | fgkSSDLadderCableWidth-fgkSSDFlexWidth[0], | |
4068 | (n-1)*(fgkSSDFlexHeight[0]+fgkSSDFlexHeight[1])); | |
4069 | laddercable->AddNode((TGeoVolume*)laddercablesegmentlist->At(2),1,endladdercabletrans); | |
4070 | return laddercable; | |
4071 | } | |
4072 | ///////////////////////////////////////////////////////////////////////////////// | |
4073 | TGeoVolume* AliITSv11GeometrySSD::GetLadderCableAssembly(Int_t n, Double_t ssdendladdercablelength){ | |
4074 | ///////////////////////////////////////////////////////////// | |
4075 | // Method generating Ladder Cable Volumes Assembly | |
4076 | ///////////////////////////////////////////////////////////// | |
4077 | TGeoVolume* laddercableassembly = new TGeoVolumeAssembly("LadderCableAssembly"); | |
4078 | char laddercabletransname[100]; | |
4079 | for(Int_t i=0; i<n; i++){ | |
4080 | sprintf(laddercabletransname,"LadderCableTrans%i",i+1); | |
4081 | laddercableassembly->AddNode(GetLadderCable(n-i,ssdendladdercablelength),i+1, | |
4082 | new TGeoTranslation(laddercabletransname,i*fgkCarbonFiberJunctionWidth,0.,0.)); | |
4083 | } | |
4084 | return laddercableassembly; | |
4085 | } | |
4086 | ///////////////////////////////////////////////////////////////////////////////// | |
4087 | TList* AliITSv11GeometrySSD::GetLadderCableAssemblyList(Int_t n, Double_t ssdendladdercablelength){ | |
4088 | ///////////////////////////////////////////////////////////// | |
4089 | // Method generating Ladder Cable List Assemblies | |
4090 | ///////////////////////////////////////////////////////////// | |
4091 | const Int_t kladdercableassemblynumber = 2; | |
4092 | TGeoVolume* laddercableassembly = GetLadderCableAssembly(n,ssdendladdercablelength); | |
4093 | TGeoVolume* ladderCable[kladdercableassemblynumber]; | |
4094 | char laddercableassemblyname[100]; | |
4095 | TList* laddercableassemblylist = new TList(); | |
4096 | for(Int_t i=0; i<kladdercableassemblynumber; i++){ | |
4097 | sprintf(laddercableassemblyname,"LadderCableAssembly%i",i+1); | |
4098 | ladderCable[i] = new TGeoVolumeAssembly(laddercableassemblyname); | |
4099 | ladderCable[i]->AddNode(laddercableassembly,i+1,i==0 ? NULL : | |
4100 | new TGeoCombiTrans((n-1) | |
4101 | * fgkCarbonFiberJunctionWidth+fgkSSDFlexWidth[0], | |
4102 | 2.*fgkSSDLadderCableWidth+0.5*fgkSSDFlexWidth[0], | |
4103 | 0.,new TGeoRotation("",180,0.,0.))); | |
4104 | laddercableassemblylist->Add(ladderCable[i]); | |
4105 | } | |
4106 | return laddercableassemblylist; | |
4107 | } | |
4108 | /////////////////////////////////////////////////////////////////////////////// | |
4109 | void AliITSv11GeometrySSD::SetLadderSegment(){ | |
4110 | ///////////////////////////////////////////////////////////// | |
4111 | // Method Generating Ladder Segment Array | |
4112 | ///////////////////////////////////////////////////////////// | |
4113 | fladdersegment[0] = new TGeoVolumeAssembly("LadderSegment1"); | |
4114 | fladdersegment[1] = new TGeoVolumeAssembly("LadderSegment2"); | |
4115 | if(!fCreateMaterials) CreateMaterials(); | |
4116 | if(!fTransformationMatrices) CreateTransformationMatrices(); | |
4117 | if(!fBasicObjects) CreateBasicObjects(); | |
4118 | for(Int_t i=0; i<fgkladdersegmentnumber; i++){ | |
4119 | // Placing Carbon Fiber Support | |
4120 | for(Int_t j=0; j<fgkcarbonfibersupportnumber; j++){ | |
4121 | fladdersegment[i]->AddNode(fcarbonfibersupport[0],j+1, | |
4122 | fcarbonfibersupportmatrix[j]); | |
4123 | fladdersegment[i]->AddNode(fcarbonfibersupport[1],j+1, | |
4124 | fcarbonfibersupportmatrix[j]); | |
4125 | } | |
4126 | // Placing Carbon Fiber Junction | |
4127 | for(Int_t j=0; j<fgkcarbonfiberjunctionumber; j++) | |
4128 | fladdersegment[i]->AddNode(fcarbonfiberjunction,j+1, | |
4129 | fcarbonfiberjunctionmatrix[j]); | |
4130 | // Placing Carbon Fiber Lower Support | |
4131 | for(Int_t j=0; j<fgkcarbonfiberlowersupportnumber; j++) | |
4132 | fladdersegment[i]->AddNode(fcarbonfiberlowersupport[j],j+1, | |
4133 | fcarbonfiberlowersupportrans[j]); | |
4134 | // Placing SSD Sensor Support | |
4135 | for(Int_t j=0; j<fgkssdsensorsupportnumber; j++) | |
4136 | fladdersegment[i]->AddNode(j<2 ? fssdsensorsupport[0][i] : | |
4137 | fssdsensorsupport[1][i], | |
4138 | j+1,fssdsensorsupportmatrix[j]); | |
4139 | // Placing SSD Cooling Tube Support | |
4140 | for(Int_t j=0; j<fgkcoolingtubesupportnumber; j++) | |
4141 | fladdersegment[i]->AddNode(fcoolingtubesupport,j+1, | |
4142 | fcoolingtubesupportmatrix[j]); | |
4143 | // Placing SSD Cooling Tube | |
4144 | for(Int_t j=0; j<2; j++) | |
4145 | for(Int_t k=0; k<2; k++){ | |
4146 | fladdersegment[i]->AddNode(fcoolingtube[0],2*j+k+1,fcoolingtubematrix[j][k]); | |
4147 | fladdersegment[i]->AddNode(fcoolingtube[j+1],k+1,fcoolingtubematrix[2+j][k]); | |
4148 | } | |
4149 | // Placing SSD Hybrid | |
4150 | switch(i){ | |
4151 | case 0: | |
4152 | fladdersegment[i]->AddNode(fssdhybridcomponent[0],1,fhybridmatrix); | |
4153 | fladdersegment[i]->AddNode(fssdhybridcomponent[2],1,fhybridmatrix); | |
4154 | break; | |
4155 | case 1: | |
4156 | fladdersegment[i]->AddNode(fssdhybridcomponent[1],1,fhybridmatrix); | |
4157 | fladdersegment[i]->AddNode(fssdhybridcomponent[2],1,fhybridmatrix); | |
4158 | break; | |
4159 | } | |
4160 | // Placing Cooling Block System | |
4161 | fladdersegment[i]->AddNode(fssdcoolingblocksystem,1,fcoolingblocksystematrix); | |
4162 | // Placing SSD Flex | |
4163 | for(Int_t j=0; j<fgkflexnumber; j++){ | |
4164 | fladdersegment[i]->AddNode(fssdstiffenerflex,j+1,fstiffenerflexmatrix[j]); | |
4165 | fladdersegment[i]->AddNode(fssdendflex,j+1,fendflexmatrix[j]); | |
4166 | } | |
4167 | } | |
4168 | } | |
4169 | /////////////////////////////////////////////////////////////////////////////// | |
4170 | void AliITSv11GeometrySSD::SetEndLadderSegment(){ | |
4171 | ///////////////////////////////////////////////////////////// | |
4172 | // Method Generating End Ladder | |
4173 | ///////////////////////////////////////////////////////////// | |
4174 | // End Ladder Carbon Fiber Junction | |
4175 | ///////////////////////////////////////////////////////////// | |
4176 | fendladdersegment[0] = new TGeoVolumeAssembly("EndLadder1"); | |
4177 | fendladdersegment[1] = new TGeoVolumeAssembly("EndLadder2"); | |
4178 | if(!fCreateMaterials) CreateMaterials(); | |
4179 | if(!fTransformationMatrices) CreateTransformationMatrices(); | |
4180 | if(!fBasicObjects) CreateBasicObjects(); | |
4181 | for(Int_t i=0; i<fgkendlabbercarbonfiberjunctionumber; i++){ | |
4182 | for(Int_t j=0; j<fgkendladdercabonfiberjunctionmatrixnumber; j++) | |
4183 | fendladdersegment[i]->AddNode(j==2 ? | |
4184 | fendladdercarbonfiberjunction[i][1] : | |
4185 | fendladdercarbonfiberjunction[i][0], | |
4186 | j+1,fendladdercarbonfiberjunctionmatrix[i][j]); | |
4187 | } | |
4188 | ///////////////////////////////////////////////////////////// | |
4189 | // End Ladder Carbon Fiber Support | |
4190 | ///////////////////////////////////////////////////////////// | |
4191 | for(Int_t i=0; i<fgkcarbonfibersupportnumber; i++) | |
4192 | for(Int_t j=0; j<fgkendladdercarbonfibermatrixnumber; j++){ | |
4193 | fendladdersegment[i]->AddNode(fcarbonfibersupport[0],j+1, | |
4194 | fendladdercarbonfibermatrix[i][j]); | |
4195 | fendladdersegment[i]->AddNode(fcarbonfibersupport[1],j+1, | |
4196 | fendladdercarbonfibermatrix[i][j]); | |
4197 | } | |
4198 | ///////////////////////////////////////////////////////////// | |
4199 | // End Ladder Mounting Block | |
4200 | ///////////////////////////////////////////////////////////// | |
4201 | for(Int_t i=0; i<fgkendladdermountingblocknumber; i++) | |
4202 | fendladdersegment[i]->AddNode(fendladdermountingblock,i+1, | |
4203 | fendladdermountingblockcombitrans[i]); | |
4204 | ///////////////////////////////////////////////////////////// | |
4205 | // End Ladder Mounting Block Clip | |
4206 | ///////////////////////////////////////////////////////////// | |
4207 | for(Int_t i=0; i<fgkendladdermountingblocknumber; i++) | |
4208 | for(Int_t j=0; j<2; j++) | |
4209 | fendladdersegment[i]->AddNode(fendladdermountingblockclip,j+1, | |
4210 | fendladdermountingblockclipmatrix[i][j]); | |
4211 | ///////////////////////////////////////////////////////////// | |
4212 | // End Ladder Lower Supports | |
4213 | ///////////////////////////////////////////////////////////// | |
4214 | fendladdersegment[0]->AddNode(fcarbonfiberlowersupport[0],1, | |
4215 | fendladderlowersupptrans[0]); | |
4216 | fendladdersegment[1]->AddNode(fcarbonfiberlowersupport[0],2, | |
4217 | fendladderlowersupptrans[1]); | |
4218 | fendladdersegment[1]->AddNode(fcarbonfiberlowersupport[0],3, | |
4219 | fendladderlowersupptrans[2]); | |
4220 | ///////////////////////////////////////////////////////////// | |
4221 | // End Ladder Cooling Tube Support | |
4222 | ///////////////////////////////////////////////////////////// | |
4223 | for(Int_t i=0; i<2; i++) | |
4224 | for(Int_t j=0; j<(i==0?4:2); j++) | |
4225 | fendladdersegment[i]->AddNode(fcoolingtubesupport,j+1, | |
4226 | fendladdercoolingtubesupportmatrix[i][j]); | |
4227 | ///////////////////////////////////////////////////////////// | |
4228 | // End Ladder Cooling Tube Support | |
4229 | ///////////////////////////////////////////////////////////// | |
4230 | // fendladdersegment[0]->AddNode(fendladdercoolingtube[0],1,fendladdercoolingtubematrix[0][0]); | |
4231 | // fendladdersegment[0]->AddNode(fendladdercoolingtube[0],2,fendladdercoolingtubematrix[0][1]); | |
4232 | fendladdersegment[0]->AddNode(fendladdercoolingtube[1],1,fendladdercoolingtubematrix[0][2]); | |
4233 | fendladdersegment[0]->AddNode(fendladdercoolingtube[1],2,fendladdercoolingtubematrix[0][3]); | |
4234 | fendladdersegment[0]->AddNode(fendladdercoolingtube[2],1,fendladdercoolingtubematrix[0][4]); | |
4235 | fendladdersegment[0]->AddNode(fendladdercoolingtube[2],2,fendladdercoolingtubematrix[0][5]); | |
4236 | fendladdersegment[1]->AddNode(fendladdercoolingtube[3],1,fendladdercoolingtubematrix[1][0]); | |
4237 | fendladdersegment[1]->AddNode(fendladdercoolingtube[3],2,fendladdercoolingtubematrix[1][1]); | |
4238 | fendladdersegment[1]->AddNode(fendladdercoolingtube[4],1,fendladdercoolingtubematrix[1][2]); | |
4239 | fendladdersegment[1]->AddNode(fendladdercoolingtube[4],2,fendladdercoolingtubematrix[1][3]); | |
4240 | } | |
4241 | /////////////////////////////////////////////////////////////////////////////// | |
4242 | void AliITSv11GeometrySSD::SetLadder(){ | |
4243 | ///////////////////////////////////////////////////////////// | |
4244 | // Method Generating Ladder of Layer 5 and 6 | |
4245 | ///////////////////////////////////////////////////////////// | |
4246 | Int_t ssdlaysensorsnumber[fgkladdernumber] = {fgkSSDLay5SensorsNumber, | |
4247 | fgkSSDLay6SensorsNumber}; | |
4248 | ///////////////////////////////////////////////////////////////////////////// | |
4249 | /// Generating Ladder Mother Volume Containing Ladder | |
4250 | ///////////////////////////////////////////////////////////////////////////// | |
4251 | TGeoXtru* laddershape[fgkladdernumber]; | |
4252 | for(Int_t i=0; i<fgkladdernumber; i++) laddershape[i] = new TGeoXtru(2); | |
4253 | const Int_t kmothervertexnumber = 8; | |
4254 | Double_t xmothervertex[fgkladdernumber][kmothervertexnumber]; | |
4255 | Double_t ymothervertex[fgkladdernumber][kmothervertexnumber]; | |
4256 | /////////////////////// | |
4257 | // Setting the vertices | |
4258 | /////////////////////// | |
4259 | Double_t laddercablethickness = (fgkSSDLay6SensorsNumber+2) | |
4260 | * (fgkSSDFlexHeight[0]+fgkSSDFlexHeight[1]); | |
4261 | xmothervertex[0][0] = -0.5*fgkSSDSensorWidth; | |
4262 | ymothervertex[0][0] = -0.5*fgkCoolingTubeSupportHeight-fgkSSDModuleCoolingBlockToSensor; | |
4263 | xmothervertex[0][1] = xmothervertex[0][0]; | |
4264 | ymothervertex[0][1] = 0.0; | |
4265 | xmothervertex[0][2] = - 0.5*fgkSSDModuleSensorSupportDistance-2.*fgkCoolingTubeSupportRmax | |
4266 | - laddercablethickness/SinD(2.*fgkSSDFlexAngle); | |
4267 | ymothervertex[0][2] = ymothervertex[0][1]; | |
4268 | ymothervertex[0][3] = 0.5*fgkCarbonFiberTriangleLength*TanD(2.*fgkSSDFlexAngle); | |
4269 | xmothervertex[0][3] = xmothervertex[0][2]+ymothervertex[0][3]/TanD(2.*fgkSSDFlexAngle); | |
4270 | xmothervertex[0][4] = -xmothervertex[0][3]; | |
4271 | ymothervertex[0][4] = ymothervertex[0][3]; | |
4272 | xmothervertex[0][5] = -xmothervertex[0][2]; | |
4273 | ymothervertex[0][5] = ymothervertex[0][2]; | |
4274 | xmothervertex[0][6] = -xmothervertex[0][1]; | |
4275 | ymothervertex[0][6] = ymothervertex[0][1]; | |
4276 | xmothervertex[0][7] = -xmothervertex[0][0]; | |
4277 | ymothervertex[0][7] = ymothervertex[0][0]; | |
4278 | for(Int_t i=0; i<kmothervertexnumber; i++){ | |
4279 | xmothervertex[1][i] = xmothervertex[0][i]; | |
4280 | ymothervertex[1][i] = ymothervertex[0][i]; | |
4281 | } | |
4282 | /////////////////////////////////////////////////////////////////////////// | |
4283 | // Disalignement Mother Volume corrections 25/08/08 | |
4284 | /////////////////////////////////////////////////////////////////////////// | |
4285 | TGeoXtru* leftladdershape1[fgkladdernumber]; | |
4286 | TGeoXtru* leftladdershape2[fgkladdernumber]; | |
4287 | TGeoXtru* centersensorladdershape[fgkladdernumber]; | |
4288 | TGeoXtru* rightladdershape1[fgkladdernumber]; | |
4289 | TGeoXtru* rightladdershape2[fgkladdernumber]; | |
4290 | for(Int_t i=0; i<fgkladdernumber; i++){ | |
4291 | leftladdershape1[i] = new TGeoXtru(2); | |
4292 | leftladdershape2[i] = new TGeoXtru(2); | |
4293 | centersensorladdershape[i] = new TGeoXtru(2); | |
4294 | rightladdershape1[i] = new TGeoXtru(2); | |
4295 | rightladdershape2[i] = new TGeoXtru(2); | |
4296 | } | |
4297 | ////////////////////////////////////// | |
4298 | // Setting the names for shapes | |
4299 | ////////////////////////////////////// | |
4300 | leftladdershape1[0]->SetName("Lay5Left1LadderSegmentContainer"); | |
4301 | leftladdershape2[0]->SetName("Lay5Left2LadderSegmentContainer"); | |
4302 | leftladdershape1[1]->SetName("Lay6Left1LadderSegmentContainer"); | |
4303 | leftladdershape2[1]->SetName("Lay6Left2LadderSegmentContainer"); | |
4304 | centersensorladdershape[0]->SetName("Lay5CenterSensorContainer"); | |
4305 | centersensorladdershape[1]->SetName("Lay6CenterSensorContainer"); | |
4306 | rightladdershape1[0]->SetName("Lay5Right1LadderSegmentContainer"); | |
4307 | rightladdershape2[0]->SetName("Lay5Right2LadderSegmentContainer"); | |
4308 | rightladdershape1[1]->SetName("Lay6Right1LadderSegmentContainer"); | |
4309 | rightladdershape2[1]->SetName("Lay6Right2LadderSegmentContainer"); | |
4310 | ////////////////////////////////////// | |
4311 | Double_t xend1laddervertex[fgkladdernumber][kmothervertexnumber]; | |
4312 | Double_t yend1laddervertex[fgkladdernumber][kmothervertexnumber]; | |
4313 | Double_t xcentersensorvertex[fgkladdernumber][kmothervertexnumber]; | |
4314 | Double_t ycentersensorvertex[fgkladdernumber][kmothervertexnumber]; | |
4315 | Double_t xend2laddervertex[fgkladdernumber][kmothervertexnumber]; | |
4316 | Double_t yend2laddervertex[fgkladdernumber][kmothervertexnumber]; | |
4317 | for(Int_t i=0; i<fgkladdernumber; i++) { | |
4318 | for(Int_t j=0; j<kmothervertexnumber; j++){ | |
4319 | xcentersensorvertex[i][j] = xmothervertex[i][j]; | |
4320 | ycentersensorvertex[i][j] = ymothervertex[i][j]; | |
4321 | xend1laddervertex[i][j] = xmothervertex[i][j]; | |
4322 | yend1laddervertex[i][j] = ymothervertex[i][j]; | |
4323 | xend2laddervertex[i][j] = xmothervertex[i][j]; | |
4324 | yend2laddervertex[i][j] = ymothervertex[i][j]; | |
4325 | } | |
4326 | // Add some space around sensors to accommodate misalignments | |
4327 | xcentersensorvertex[i][0] -= fgkSSDModuleSideDisalignment; | |
4328 | xcentersensorvertex[i][1] = xcentersensorvertex[0][0]; | |
4329 | xcentersensorvertex[i][6] = -xcentersensorvertex[0][1]; | |
4330 | xcentersensorvertex[i][7] = -xcentersensorvertex[0][0]; | |
4331 | ||
4332 | ycentersensorvertex[i][0] -= fgkSSDModuleVerticalDisalignment; | |
4333 | ycentersensorvertex[i][7] = ycentersensorvertex[0][0]; | |
4334 | ||
4335 | // Center Ladder Piece | |
4336 | centersensorladdershape[i]->DefinePolygon(kmothervertexnumber,xcentersensorvertex[i], | |
4337 | ycentersensorvertex[i]); | |
4338 | centersensorladdershape[i]->DefineSection(0, - fgkEndLadderCarbonFiberLowerJunctionLength[1] | |
4339 | + 1.45*fgkSSDMountingBlockWidth); | |
4340 | centersensorladdershape[i]->DefineSection(1, ssdlaysensorsnumber[i] * fgkCarbonFiberJunctionWidth | |
4341 | + fgkEndLadderCarbonFiberLowerJunctionLength[0] | |
4342 | - 2.4*fgkSSDMountingBlockWidth); | |
4343 | ||
4344 | // Left and Right Ladder Pieces: Mother volumes around ladder mounting areas | |
4345 | ||
4346 | // Cuts off first corner (neg x) | |
4347 | xend1laddervertex[i][0] = -0.5*fgkSSDMountingBlockLength[0]; | |
4348 | xend1laddervertex[i][1] = -0.5*fgkSSDMountingBlockLength[0]; | |
4349 | // Cuts off last part (pos x) | |
4350 | xend2laddervertex[i][6] = 0.5*fgkSSDMountingBlockLength[0]; | |
4351 | xend2laddervertex[i][7] = 0.5*fgkSSDMountingBlockLength[0]; | |
4352 | ||
4353 | leftladdershape1[i]->DefinePolygon(kmothervertexnumber,xend1laddervertex[i], | |
4354 | yend1laddervertex[i]); | |
4355 | leftladdershape1[i]->DefineSection(0,-fgkEndLadderCarbonFiberLowerJunctionLength[1]); | |
4356 | leftladdershape1[i]->DefineSection(1, fendladdersegmentmatrix[0][i]->GetTranslation()[2] | |
4357 | - fgkEndLadderMountingBlockPosition[0]); | |
4358 | ||
4359 | leftladdershape2[i]->DefinePolygon(kmothervertexnumber,xend2laddervertex[i], | |
4360 | yend2laddervertex[i]); | |
4361 | leftladdershape2[i]->DefineSection(0, fendladdersegmentmatrix[0][i]->GetTranslation()[2] | |
4362 | - fgkEndLadderMountingBlockPosition[0]); | |
4363 | leftladdershape2[i]->DefineSection(1,- fgkEndLadderCarbonFiberLowerJunctionLength[1] | |
4364 | + 1.45*fgkSSDMountingBlockWidth); // connect to main volume at -1.6725 cm | |
4365 | ||
4366 | rightladdershape1[i]->DefinePolygon(kmothervertexnumber,xend1laddervertex[i], | |
4367 | yend1laddervertex[i]); | |
4368 | rightladdershape1[i]->DefineSection(0,ssdlaysensorsnumber[i]*fgkCarbonFiberJunctionWidth | |
4369 | +fgkEndLadderCarbonFiberLowerJunctionLength[0] | |
4370 | -2.4*fgkSSDMountingBlockWidth); | |
4371 | rightladdershape1[i]->DefineSection(1,fendladdersegmentmatrix[1][i]->GetTranslation()[2] | |
4372 | + fgkEndLadderMountingBlockPosition[1]); | |
4373 | ||
4374 | rightladdershape2[i]->DefinePolygon(kmothervertexnumber,xend2laddervertex[i], | |
4375 | yend2laddervertex[i]); | |
4376 | rightladdershape2[i]->DefineSection(0, fendladdersegmentmatrix[1][i]->GetTranslation()[2] | |
4377 | + fgkEndLadderMountingBlockPosition[1]); | |
4378 | rightladdershape2[i]->DefineSection(1, ssdlaysensorsnumber[i]*fgkCarbonFiberJunctionWidth | |
4379 | + fgkEndLadderCarbonFiberLowerJunctionLength[0]); | |
4380 | } | |
4381 | TGeoCompositeShape* laddershapecontainer[2]; | |
4382 | laddershapecontainer[0] = new TGeoCompositeShape("Lay5LadderCompositeShape", | |
4383 | "Lay5Left1LadderSegmentContainer+Lay5Left2LadderSegmentContainer" | |
4384 | "+Lay5CenterSensorContainer" | |
4385 | "+Lay5Right1LadderSegmentContainer+Lay5Right2LadderSegmentContainer"); | |
4386 | laddershapecontainer[1] = new TGeoCompositeShape("Lay6LadderCompositeShape", | |
4387 | "Lay6Left1LadderSegmentContainer+Lay6Left2LadderSegmentContainer" | |
4388 | "+Lay6CenterSensorContainer" | |
4389 | "+Lay6Right1LadderSegmentContainer+Lay6Right2LadderSegmentContainer"); | |
4390 | const char* laddername[fgkladdernumber] = {"ITSssdLay5Ladd","ITSssdLay6Ladd"}; | |
4391 | for(Int_t i=0; i<fgkladdernumber; i++){ | |
4392 | fladder[i] = new TGeoVolume(laddername[i],laddershapecontainer[i],fSSDAir); | |
4393 | fladder[i]->SetLineColor(4); | |
4394 | } | |
4395 | /////////////////////////////////////////////////////////////////////////// | |
4396 | if(!fCreateMaterials) CreateMaterials(); | |
4397 | if(!fTransformationMatrices) CreateTransformationMatrices(); | |
4398 | if(!fBasicObjects) CreateBasicObjects(); | |
4399 | SetLadderSegment(); | |
4400 | SetEndLadderSegment(); | |
4401 | for(Int_t i=0; i<fgkladdernumber; i++){ | |
4402 | for(Int_t j=0; j<ssdlaysensorsnumber[i]; j++){ | |
4403 | ////////////////////////// | |
4404 | /// Placing Ladder Segment | |
4405 | ////////////////////////// | |
4406 | fladder[i]->AddNode(j%2==0 ? fladdersegment[i==0 ? 0 : 1] : | |
4407 | fladdersegment[i==0 ? 1 : 0], | |
4408 | ssdlaysensorsnumber[i]-j-1,fladdermatrix[i][j]); | |
4409 | ////////////////////////// | |
4410 | /// Placing SSD Sensor | |
4411 | ////////////////////////// | |
4412 | if(i==0&&ssdlaysensorsnumber[i]-j-1==13) fSSDSensor5->SetLineColor(kRed); | |
4413 | fladder[i]->AddNode(i==0?fSSDSensor5:fSSDSensor6,ssdlaysensorsnumber[i]-j-1, | |
4414 | fssdsensormatrix[i][j]); | |
4415 | } | |
4416 | /////////////////////////////// | |
4417 | /// Placing End Ladder Segment | |
4418 | /////////////////////////////// | |
4419 | fladder[i]->AddNode(fendladdersegment[0],1,fendladdersegmentmatrix[0][i]); | |
4420 | fladder[i]->AddNode(fendladdersegment[1],1,fendladdersegmentmatrix[1][i]); | |
4421 | } | |
4422 | ///////////////////////////////////////////////////////////////////////////// | |
4423 | /// Placing Ladder Cables | |
4424 | ///////////////////////////////////////////////////////////////////////////// | |
4425 | Int_t sidecablenumber[2][2]; | |
4426 | sidecablenumber[0][0] = fgkSSDLay5SensorsNumber/2+1; | |
4427 | sidecablenumber[0][1] = sidecablenumber[0][0]-2; | |
4428 | sidecablenumber[1][0] = (fgkSSDLay6SensorsNumber-1)/2+1; | |
4429 | sidecablenumber[1][1] = sidecablenumber[1][0]-1; | |
4430 | Double_t carbonfibertomoduleposition[3]; | |
4431 | carbonfibertomoduleposition[0] = -0.5*(fgkSSDSensorWidth-fgkCarbonFiberTriangleLength); | |
4432 | carbonfibertomoduleposition[1] = - (2.*fgkSSDSensorLength-fgkSSDSensorOverlap)+ | |
4433 | fgkSSDModuleStiffenerPosition[1]+fgkSSDStiffenerWidth | |
4434 | + 0.5*fgkSSDFlexHoleLength+2.*fgkCarbonFiberJunctionWidth | |
4435 | - 0.5*(fgkCarbonFiberLowerSupportWidth+fgkSSDSensorCenterSupportLength | |
4436 | - fgkSSDSensorCenterSupportThickness[0]); | |
4437 | carbonfibertomoduleposition[2] = - (fgkSSDModuleCoolingBlockToSensor | |
4438 | + 0.5*fgkCoolingTubeSupportHeight | |
4439 | - fgkSSDSensorHeight-fgkSSDChipCablesHeight[3]-fgkSSDChipHeight); | |
4440 | const Double_t kendladdercablecorrection = 1.72*fgkmm; //this has to be tuned | |
4441 | Double_t ssdendladdercablelength[4]; | |
4442 | ssdendladdercablelength[0] = carbonfibertomoduleposition[1] | |
4443 | + fgkSSDSensorLength | |
4444 | - fgkSSDModuleStiffenerPosition[1] | |
4445 | - fgkSSDStiffenerWidth | |
4446 | - fgkSSDFlexWidth[0] | |
4447 | + fgkEndLadderCarbonFiberLowerJunctionLength[1]-0.000001*kendladdercablecorrection; | |
4448 | ssdendladdercablelength[1] = carbonfibertomoduleposition[1] | |
4449 | + fgkSSDModuleStiffenerPosition[1] | |
4450 | + fgkSSDStiffenerWidth | |
4451 | + fgkEndLadderCarbonFiberLowerJunctionLength[1]-0.000001*kendladdercablecorrection; | |
4452 | ssdendladdercablelength[2] = ssdendladdercablelength[1] | |
4453 | - fgkEndLadderCarbonFiberLowerJunctionLength[1] | |
4454 | + fgkEndLadderCarbonFiberLowerJunctionLength[0] | |
4455 | - kendladdercablecorrection; | |
4456 | ssdendladdercablelength[3] = fgkCarbonFiberJunctionWidth-(fgkSSDSensorLength | |
4457 | + carbonfibertomoduleposition[1] | |
4458 | - fgkSSDModuleStiffenerPosition[1] | |
4459 | - fgkSSDStiffenerWidth) | |
4460 | + fgkEndLadderCarbonFiberLowerJunctionLength[0]-0.000001*kendladdercablecorrection; | |
4461 | TList* laddercableassemblylist[4]; | |
4462 | const Int_t kendladdercablesnumber = 4; | |
4463 | for(Int_t i=0; i<fgkladdercablesnumber; i++) | |
4464 | for(Int_t j=0; j<kendladdercablesnumber; j++){ | |
4465 | laddercableassemblylist[j] = | |
4466 | GetLadderCableAssemblyList(sidecablenumber[i][j<2?0:1], | |
4467 | ssdendladdercablelength[j]); | |
4468 | fladder[i]->AddNode((TGeoVolume*)laddercableassemblylist[j]->At(j%2==0?0:1), | |
4469 | j<2?1:2,fladdercablematrix[i][j]); | |
4470 | } | |
4471 | } | |
4472 | //////////////////////////////////////////////////////////////////////////////// | |
4473 | void AliITSv11GeometrySSD::SetLayer(){ | |
4474 | //////////////////////////////////////////////////////////////////////////////// | |
4475 | // Creating Ladder of Layer 5 and Layer 6 | |
4476 | ///////////////////////////////////////////////////////////// | |
4477 | if(!fCreateMaterials) CreateMaterials(); | |
4478 | if(!fTransformationMatrices) CreateTransformationMatrices(); | |
4479 | if(!fBasicObjects) CreateBasicObjects(); | |
4480 | SetLadder(); // Generating the ladder of Layer5 and Layer6 | |
4481 | const Int_t kssdlayladdernumber[fgklayernumber] = | |
4482 | {fgkSSDLay5LadderNumber,fgkSSDLay6LadderNumber}; | |
4483 | ///////////////////////////////////////////////////////////// | |
4484 | // Generating mother volumes for Layer5 and Layer6 | |
4485 | ///////////////////////////////////////////////////////////// | |
4486 | fSSDLayer5 = new TGeoVolumeAssembly("ITSssdLayer5"); | |
4487 | fSSDLayer6 = new TGeoVolumeAssembly("ITSssdLayer6"); | |
4488 | Int_t *ladderindex[fgklayernumber]; | |
4489 | Int_t index[fgklayernumber] = {8,9}; | |
4490 | for(Int_t i=0; i<fgklayernumber; i++) ladderindex[i] = new Int_t[kssdlayladdernumber[i]]; | |
4491 | for(Int_t i=0; i<fgklayernumber; i++) | |
4492 | for(Int_t j=0; j<kssdlayladdernumber[i]; j++){ | |
4493 | ladderindex[i][j] = ((j>=0)&&(j<=kssdlayladdernumber[i]-index[i]-1)) ? | |
4494 | j+index[i] : j+index[i]-kssdlayladdernumber[i]; | |
4495 | i ==0 ? fSSDLayer5->AddNode(fladder[0],ladderindex[i][j],flayermatrix[i][j]) : | |
4496 | fSSDLayer6->AddNode(fladder[1],ladderindex[i][j],flayermatrix[i][j]); | |
4497 | } | |
4498 | ///////////////////////////////////////////////////////////// | |
4499 | // Deallocating memory | |
4500 | ///////////////////////////////////////////////////////////// | |
4501 | for(Int_t i=0; i<fgklayernumber; i++) delete [] ladderindex[i]; | |
4502 | } | |
4503 | //////////////////////////////////////////////////////////////////////////////// | |
4504 | void AliITSv11GeometrySSD::Layer5(TGeoVolume* moth){ | |
4505 | ///////////////////////////////////////////////////////////// | |
4506 | // Insert the layer 5 in the mother volume. | |
4507 | ///////////////////////////////////////////////////////////// | |
4508 | if (! moth) { | |
4509 | AliError("Can't insert layer5, mother is null!\n"); | |
4510 | return; | |
4511 | }; | |
4512 | if(!fSSDLayer5) SetLayer(); | |
4513 | fMotherVol = moth; | |
4514 | TGeoTranslation* centerITSlayer5trans = new TGeoTranslation(0.,0.,-0.5*fgkSSDLay5LadderLength | |
4515 | + fgkLay5CenterITSPosition); | |
4516 | moth->AddNode(fSSDLayer5,1,centerITSlayer5trans); | |
4517 | } | |
4518 | //////////////////////////////////////////////////////////////////////////////// | |
4519 | void AliITSv11GeometrySSD::Layer6(TGeoVolume* moth){ | |
4520 | ///////////////////////////////////////////////////////////// | |
4521 | // Insert the layer 6 in the mother volume. | |
4522 | ///////////////////////////////////////////////////////////// | |
4523 | if (! moth) { | |
4524 | AliError("AliITSv11GeometrySSD: Can't insert layer6, mother is null!\n"); | |
4525 | return; | |
4526 | }; | |
4527 | if(!fSSDLayer6) SetLayer(); | |
4528 | fMotherVol = moth; | |
4529 | TGeoTranslation* centerITSlayer6trans = new TGeoTranslation(0.,0.,-0.5*fgkSSDLay6LadderLength | |
4530 | + fgkLay6CenterITSPosition); | |
4531 | moth->AddNode(fSSDLayer6,1,centerITSlayer6trans); | |
4532 | } | |
4533 | //////////////////////////////////////////////////////////////////////////////// | |
4534 | TList* AliITSv11GeometrySSD::GetMountingBlockSupport(Int_t nedges){ | |
4535 | ///////////////////////////////////////////////////////////// | |
4536 | // Method generating the Arc structure of Ladder Support | |
4537 | ///////////////////////////////////////////////////////////// | |
4538 | const Int_t kssdlayladdernumber[fgklayernumber] = | |
4539 | {fgkSSDLay5LadderNumber,fgkSSDLay6LadderNumber}; | |
4540 | Double_t mountingsupportedge[fgklayernumber]; | |
4541 | Double_t mountingblockratio[fgklayernumber]; | |
4542 | Double_t theta[fgklayernumber]; | |
4543 | Double_t phi[fgklayernumber]; | |
4544 | Double_t psi0[fgklayernumber]; | |
4545 | Double_t deltapsi[fgklayernumber]; | |
4546 | TVector3* mountingsupportedgevector[fgklayernumber]; | |
4547 | for(Int_t i=0; i<fgklayernumber; i++){ | |
4548 | mountingblockratio[i] = fgkSSDMountingBlockLength[0]/fgkMountingBlockSupportRadius[i]; | |
4549 | mountingsupportedge[i] = 0.5*fgkMountingBlockSupportRadius[i] | |
4550 | * (TMath::Sqrt((2.-mountingblockratio[i])*(2.+mountingblockratio[i])) | |
4551 | * TMath::Sin(2.0*TMath::Pi()/kssdlayladdernumber[i]) | |
4552 | - mountingblockratio[i]*(1.0+TMath::Cos(2.0*TMath::Pi() | |
4553 | / kssdlayladdernumber[i]))); | |
4554 | theta[i] = TMath::ASin(0.5*mountingblockratio[i]+mountingsupportedge[i]/fgkMountingBlockSupportRadius[i]); | |
4555 | phi[i] = TMath::ASin(0.5*mountingblockratio[i]); | |
4556 | mountingsupportedgevector[i] = new TVector3(); | |
4557 | mountingsupportedgevector[i]->SetX(-0.5*fgkSSDMountingBlockLength[0]); | |
4558 | mountingsupportedgevector[i]->SetY(fgkMountingBlockSupportRadius[i]*TMath::Sqrt( | |
4559 | (1.-mountingsupportedgevector[i]->X()/fgkMountingBlockSupportRadius[i])* | |
4560 | (1.+mountingsupportedgevector[i]->X()/fgkMountingBlockSupportRadius[i]))); | |
4561 | psi0[i] = 0.5*TMath::Pi()-phi[i]; | |
4562 | deltapsi[i] = (theta[i]+phi[i])/nedges; | |
4563 | } | |
4564 | TVector3** vertex[fgklayernumber]; | |
4565 | TList* vertexlist[fgklayernumber]; | |
4566 | Int_t indexedge[fgklayernumber] = {0,0}; | |
4567 | for(Int_t i=0; i<fgklayernumber; i++){ | |
4568 | vertex[i] = new TVector3*[nedges+1]; | |
4569 | vertexlist[i] = new TList(); | |
4570 | } | |
4571 | for(Int_t i=0; i<fgklayernumber; i++){ | |
4572 | for(Int_t j=0; j<nedges+1; j++){ | |
4573 | vertex[i][j] = new TVector3(fgkMountingBlockSupportRadius[i]*TMath::Cos(psi0[i]+j*deltapsi[i]), | |
4574 | fgkMountingBlockSupportRadius[i]*TMath::Sin(psi0[i]+j*deltapsi[i])); | |
4575 | if(vertex[i][j]->X()>mountingsupportedgevector[i]->X()) indexedge[i]++; | |
4576 | vertexlist[i]->Add(vertex[i][j]); | |
4577 | } | |
4578 | vertexlist[i]->AddAt(mountingsupportedgevector[i],indexedge[i]); | |
4579 | } | |
4580 | Double_t** xsidevertex = new Double_t*[fgklayernumber]; | |
4581 | Double_t** ysidevertex = new Double_t*[fgklayernumber]; | |
4582 | Double_t** xcentervertex = new Double_t*[fgklayernumber]; | |
4583 | Double_t** ycentervertex = new Double_t*[fgklayernumber]; | |
4584 | Double_t** xsidelowervertex = new Double_t*[fgklayernumber]; | |
4585 | Double_t** ysidelowervertex = new Double_t*[fgklayernumber]; | |
4586 | Double_t** xcenterlowervertex = new Double_t*[fgklayernumber]; | |
4587 | Double_t** ycenterlowervertex = new Double_t*[fgklayernumber]; | |
4588 | for(Int_t i=0; i<fgklayernumber; i++){ | |
4589 | xsidevertex[i] = new Double_t[vertexlist[i]->GetSize()+2]; | |
4590 | ysidevertex[i] = new Double_t[vertexlist[i]->GetSize()+2]; | |
4591 | xcentervertex[i] = new Double_t[indexedge[i]+3]; | |
4592 | ycentervertex[i] = new Double_t[indexedge[i]+3]; | |
4593 | xsidelowervertex[i] = new Double_t[vertexlist[i]->GetSize()+1]; | |
4594 | ysidelowervertex[i] = new Double_t[vertexlist[i]->GetSize()+1]; | |
4595 | xcenterlowervertex[i] = new Double_t[indexedge[i]+3]; | |
4596 | ycenterlowervertex[i] = new Double_t[indexedge[i]+3]; | |
4597 | for(Int_t j=0; j<vertexlist[i]->GetSize(); j++){ | |
4598 | xsidevertex[i][j!=vertexlist[i]->GetSize()-1?j+3:0] = | |
4599 | ((TVector3*)vertexlist[i]->At(j))->X(); | |
4600 | ysidevertex[i][j!=vertexlist[i]->GetSize()-1?j+3:0] = | |
4601 | ((TVector3*)vertexlist[i]->At(j))->Y(); | |
4602 | xsidelowervertex[i][j] = ((TVector3*)vertexlist[i]->At(vertexlist[i]->GetSize()-1-j))->X(); | |
4603 | ysidelowervertex[i][j] = ((TVector3*)vertexlist[i]->At(vertexlist[i]->GetSize()-1-j))->Y(); | |
4604 | if(j<indexedge[i]+1){ | |
4605 | xcentervertex[i][j!=indexedge[i]?j+3:0] = | |
4606 | ((TVector3*)vertexlist[i]->At(j))->X(); | |
4607 | ycentervertex[i][j!=indexedge[i]?j+3:0] = | |
4608 | ((TVector3*)vertexlist[i]->At(j))->Y(); | |
4609 | xcenterlowervertex[i][j+1] = ((TVector3*)vertexlist[i]->At(indexedge[i]-j))->X(); | |
4610 | ycenterlowervertex[i][j+1] = ((TVector3*)vertexlist[i]->At(indexedge[i]-j))->Y(); | |
4611 | } | |
4612 | } | |
4613 | xsidevertex[i][1] = xsidevertex[i][0]; | |
4614 | ysidevertex[i][1] = fgkMountingBlockSupportRadius[i]; | |
4615 | xsidevertex[i][2] = xsidevertex[i][3]; | |
4616 | ysidevertex[i][2] = fgkMountingBlockSupportRadius[i]; | |
4617 | xcentervertex[i][1] = xcentervertex[i][0]; | |
4618 | ycentervertex[i][1] = fgkMountingBlockSupportRadius[i]; | |
4619 | xcentervertex[i][2] = xcentervertex[i][3]; | |
4620 | ycentervertex[i][2] = fgkMountingBlockSupportRadius[i]; | |
4621 | xsidelowervertex[i][vertexlist[i]->GetSize()] = xsidelowervertex[i][vertexlist[i]->GetSize()-1]; | |
4622 | ysidelowervertex[i][vertexlist[i]->GetSize()] = ysidelowervertex[i][0]; | |
4623 | xcenterlowervertex[i][0] = xcenterlowervertex[i][1]; | |
4624 | ycenterlowervertex[i][0] = ysidevertex[i][0]; | |
4625 | xcenterlowervertex[i][indexedge[i]+2] = xsidelowervertex[i][vertexlist[i]->GetSize()]; | |
4626 | ycenterlowervertex[i][indexedge[i]+2] = ycenterlowervertex[i][0]; | |
4627 | } | |
4628 | ///////////////////////////////////////////////////////////// | |
4629 | // Building the Arc Structure of Ladder Supports | |
4630 | ///////////////////////////////////////////////////////////// | |
4631 | TGeoXtru* sidemountingblocksupportshape[fgklayernumber]; | |
4632 | TGeoXtru* centermountingsupportshape[fgklayernumber]; | |
4633 | TGeoXtru* sideladdersupportpieceshape[fgklayernumber]; | |
4634 | TGeoXtru* centerladdersupportpieceshape[fgklayernumber]; | |
4635 | TGeoVolume* sidemountingblocksupport[fgklayernumber]; | |
4636 | TGeoVolume* centermountingblocksupport[fgklayernumber]; | |
4637 | TGeoVolume* sideladdersupportpiece[fgklayernumber]; | |
4638 | TGeoVolume* centerladdersupportpiece[fgklayernumber]; | |
4639 | char sidemountingblockname[100]; | |
4640 | char centermountingblockname[100]; | |
4641 | char sideladdersupportpiecename[100]; | |
4642 | char centerladdersupportpiecename[100]; | |
4643 | for(Int_t i=0; i<fgklayernumber; i++){ | |
4644 | sprintf(sidemountingblockname,"MountingBlockSupportSideLay%dArc",i+5); | |
4645 | sprintf(centermountingblockname,"MountingBlockSupportCenterLay%dArc",i+5); | |
4646 | sprintf(sideladdersupportpiecename,"SideLadderSupportPieceLay%d",i+5); | |
4647 | sprintf(centerladdersupportpiecename,"CenterLadderSupportPieceLay%d",i+5); | |
4648 | sidemountingblocksupportshape[i] = new TGeoXtru(2); | |
4649 | sidemountingblocksupportshape[i]->DefinePolygon(vertexlist[i]->GetSize()+2, | |
4650 | xsidevertex[i],ysidevertex[i]); | |
4651 | sidemountingblocksupportshape[i]->DefineSection(0,fgkMountingBlockSupportWidth[1] | |
4652 | -fgkMountingBlockSupportWidth[0]); | |
4653 | sidemountingblocksupportshape[i]->DefineSection(1,fgkMountingBlockSupportWidth[1]); | |
4654 | sidemountingblocksupport[i] = new TGeoVolume(sidemountingblockname, | |
4655 | sidemountingblocksupportshape[i], | |
4656 | fSSDAlCoolBlockMedium); | |
4657 | sidemountingblocksupport[i]->SetLineColor(9); | |
4658 | centermountingsupportshape[i] = new TGeoXtru(2); | |
4659 | centermountingsupportshape[i]->DefinePolygon(indexedge[i]+3, | |
4660 | xcentervertex[i],ycentervertex[i]); | |
4661 | centermountingsupportshape[i]->DefineSection(0,0.); | |
4662 | centermountingsupportshape[i]->DefineSection(1,fgkMountingBlockSupportWidth[1] | |
4663 | -fgkMountingBlockSupportWidth[0]); | |
4664 | ||
4665 | centermountingblocksupport[i] = new TGeoVolume(centermountingblockname, | |
4666 | centermountingsupportshape[i], | |
4667 | fSSDAlCoolBlockMedium); | |
4668 | centermountingblocksupport[i]->SetLineColor(9); | |
4669 | sideladdersupportpieceshape[i] = new TGeoXtru(2); | |
4670 | sideladdersupportpieceshape[i]->DefinePolygon(vertexlist[i]->GetSize()+1, | |
4671 | xsidelowervertex[i],ysidelowervertex[i]); | |
4672 | sideladdersupportpieceshape[i]->DefineSection(0,fgkMountingBlockSupportWidth[1] | |
4673 | -fgkMountingBlockSupportWidth[0]); | |
4674 | sideladdersupportpieceshape[i]->DefineSection(1,fgkMountingBlockSupportWidth[1]); | |
4675 | sideladdersupportpiece[i] = new TGeoVolume(sideladdersupportpiecename, | |
4676 | sideladdersupportpieceshape[i], | |
4677 | fSSDCarbonFiberMedium); | |
4678 | sideladdersupportpiece[i]->SetLineColor(fColorAl); | |
4679 | centerladdersupportpieceshape[i] = new TGeoXtru(2); | |
4680 | centerladdersupportpieceshape[i]->DefinePolygon(indexedge[i]+3, | |
4681 | xcenterlowervertex[i],ycenterlowervertex[i]); | |
4682 | centerladdersupportpieceshape[i]->DefineSection(0,0.0); | |
4683 | centerladdersupportpieceshape[i]->DefineSection(1,fgkMountingBlockSupportWidth[1] | |
4684 | -fgkMountingBlockSupportWidth[0]); | |
4685 | centerladdersupportpiece[i] = new TGeoVolume(centerladdersupportpiecename, | |
4686 | centerladdersupportpieceshape[i], | |
4687 | fSSDCarbonFiberMedium); | |
4688 | centerladdersupportpiece[i]->SetLineColor(fColorAl); | |
4689 | } | |
4690 | ///////////////////////////////////////////////////////////// | |
4691 | // Building the Up Structure of Ladder Supports | |
4692 | ///////////////////////////////////////////////////////////// | |
4693 | TGeoBBox** mountingblocksupportboxupshape[fgklayernumber]; | |
4694 | for(Int_t i=0; i<fgklayernumber; i++) mountingblocksupportboxupshape[i] = new TGeoBBox*[2]; | |
4695 | TGeoBBox** mountingblocksupportboxdownshape[fgklayernumber]; | |
4696 | for(Int_t i=0; i<fgklayernumber; i++) mountingblocksupportboxdownshape[i] = new TGeoBBox*[2]; | |
4697 | TGeoVolume** mountingblocksupportboxdown[fgklayernumber]; | |
4698 | ////////////////////////////////////////////////////////// | |
4699 | // Setting the volume for TGeoXtru Mounting Block Piece | |
4700 | ////////////////////////////////////////////////////////// | |
4701 | TGeoVolume** mountingblocksupportboxup[fgklayernumber]; | |
4702 | TGeoXtru* mountingblockpiecedownshape[fgklayernumber]; | |
4703 | TGeoVolume* mountingblockpiecedown[fgklayernumber]; | |
4704 | TGeoXtru* mountingblockpieceupshape[fgklayernumber]; | |
4705 | TGeoVolume* mountingblockpieceup[fgklayernumber]; | |
4706 | Double_t mountingblockpieceupxvertex[fgklayernumber][8]; | |
4707 | Double_t mountingblockpieceupyvertex[fgklayernumber][8]; | |
4708 | Double_t mountingblockpiecedownxvertex[fgklayernumber][8]; | |
4709 | Double_t mountingblockpiecedownyvertex[fgklayernumber][8]; | |
4710 | char mountingblockpiecedownname[100]; | |
4711 | char mountingblockpieceupname[100]; | |
4712 | for(Int_t i=0; i<fgklayernumber; i++){ | |
4713 | /////////////////////////// | |
4714 | // Mounting Block Down Vertex | |
4715 | /////////////////////////// | |
4716 | mountingblockpiecedownshape[i] = new TGeoXtru(2); | |
4717 | sprintf(mountingblockpiecedownname,"MountingBlockPieceDownLay%d",i+5); | |
4718 | mountingblockpiecedownxvertex[i][0] = -0.5*fgkSSDMountingBlockLength[0]; | |
4719 | mountingblockpiecedownyvertex[i][0] = fgkMountingBlockSupportRadius[i] | |
4720 | + fgkMountingBlockSupportDownHeight | |
4721 | - fgkSSDLadderVerticalDisalignment; | |
4722 | mountingblockpiecedownxvertex[i][1] = mountingblockpiecedownxvertex[i][0]; | |
4723 | mountingblockpiecedownyvertex[i][1] = mountingblockpiecedownyvertex[i][0] | |
4724 | + fgkSSDMountingBlockHeight[1] | |
4725 | - 0.5*fgkCoolingTubeSupportHeight | |
4726 | - fgkSSDModuleCoolingBlockToSensor; | |
4727 | mountingblockpiecedownxvertex[i][2] = 0.5*fgkSSDMountingBlockLength[0]; | |
4728 | mountingblockpiecedownyvertex[i][2] = mountingblockpiecedownyvertex[i][1]; | |
4729 | mountingblockpiecedownxvertex[i][3] = mountingblockpiecedownxvertex[i][2]; | |
4730 | mountingblockpiecedownyvertex[i][3] = mountingblockpiecedownyvertex[i][0]; | |
4731 | mountingblockpiecedownxvertex[i][4] = 0.5*fgkSSDMountingBlockLength[1]; | |
4732 | mountingblockpiecedownyvertex[i][4] = mountingblockpiecedownyvertex[i][0]; | |
4733 | mountingblockpiecedownxvertex[i][5] = mountingblockpiecedownxvertex[i][4]; | |
4734 | mountingblockpiecedownyvertex[i][5] = mountingblockpiecedownyvertex[i][4] | |
4735 | + fgkSSDMountingBlockHeight[2] | |
4736 | - fgkSSDMountingBlockHeight[0]; | |
4737 | mountingblockpiecedownxvertex[i][6] = -mountingblockpiecedownxvertex[i][4]; | |
4738 | mountingblockpiecedownyvertex[i][6] = mountingblockpiecedownyvertex[i][5]; | |
4739 | mountingblockpiecedownxvertex[i][7] = mountingblockpiecedownxvertex[i][6]; | |
4740 | mountingblockpiecedownyvertex[i][7] = mountingblockpiecedownyvertex[i][0]; | |
4741 | mountingblockpiecedownshape[i]->DefinePolygon(8,mountingblockpiecedownxvertex[i], | |
4742 | mountingblockpiecedownyvertex[i]); | |
4743 | mountingblockpiecedownshape[i]->DefineSection(0,0.0); | |
4744 | mountingblockpiecedownshape[i]->DefineSection(1,fgkMountingBlockSupportWidth[1]); | |
4745 | mountingblockpiecedown[i] = new TGeoVolume(mountingblockpiecedownname, | |
4746 | mountingblockpiecedownshape[i],fSSDMountingBlockMedium); | |
4747 | mountingblockpiecedown[i]->SetLineColor(fColorG10); | |
4748 | ||
4749 | /////////////////////////// | |
4750 | // Mounting Block Up Vertex | |
4751 | /////////////////////////// | |
4752 | mountingblockpieceupshape[i] = new TGeoXtru(2); | |
4753 | sprintf(mountingblockpieceupname,"MountingBlockPieceUpLay%d",i+5); | |
4754 | mountingblockpieceupxvertex[i][0] = -0.5*fgkSSDMountingBlockLength[0]; | |
4755 | mountingblockpieceupyvertex[i][0] = fgkMountingBlockSupportRadius[i] | |
4756 | + fgkMountingBlockSupportUpHeight[i] | |
4757 | - fgkSSDLadderVerticalDisalignment; | |
4758 | mountingblockpieceupxvertex[i][1] = mountingblockpieceupxvertex[i][0]; | |
4759 | mountingblockpieceupyvertex[i][1] = mountingblockpieceupyvertex[i][0] | |
4760 | + fgkSSDMountingBlockHeight[1] | |
4761 | - 0.5*fgkCoolingTubeSupportHeight | |
4762 | - fgkSSDModuleCoolingBlockToSensor; | |
4763 | mountingblockpieceupxvertex[i][2] = 0.5*fgkSSDMountingBlockLength[0]; | |
4764 | mountingblockpieceupyvertex[i][2] = mountingblockpieceupyvertex[i][1]; | |
4765 | mountingblockpieceupxvertex[i][3] = mountingblockpieceupxvertex[i][2]; | |
4766 | mountingblockpieceupyvertex[i][3] = mountingblockpieceupyvertex[i][0]; | |
4767 | mountingblockpieceupxvertex[i][4] = 0.5*fgkSSDMountingBlockLength[1]; | |
4768 | mountingblockpieceupyvertex[i][4] = mountingblockpieceupyvertex[i][0]; | |
4769 | mountingblockpieceupxvertex[i][5] = mountingblockpieceupxvertex[i][4]; | |
4770 | mountingblockpieceupyvertex[i][5] = mountingblockpieceupyvertex[i][4] | |
4771 | + fgkSSDMountingBlockHeight[2] | |
4772 | - fgkSSDMountingBlockHeight[0]; | |
4773 | mountingblockpieceupxvertex[i][6] = -mountingblockpieceupxvertex[i][4]; | |
4774 | mountingblockpieceupyvertex[i][6] = mountingblockpieceupyvertex[i][5]; | |
4775 | mountingblockpieceupxvertex[i][7] = mountingblockpieceupxvertex[i][6]; | |
4776 | mountingblockpieceupyvertex[i][7] = mountingblockpieceupyvertex[i][0]; | |
4777 | ||
4778 | mountingblockpieceupshape[i]->DefinePolygon(8,mountingblockpieceupxvertex[i], | |
4779 | mountingblockpieceupyvertex[i]); | |
4780 | mountingblockpieceupshape[i]->DefineSection(0,0.0); | |
4781 | mountingblockpieceupshape[i]->DefineSection(1,fgkMountingBlockSupportWidth[1]); | |
4782 | mountingblockpieceup[i] = new TGeoVolume(mountingblockpieceupname, | |
4783 | mountingblockpieceupshape[i],fSSDMountingBlockMedium); | |
4784 | mountingblockpieceup[i]->SetLineColor(fColorG10); | |
4785 | } | |
4786 | /////////////////////////////////////////////////////////////////// | |
4787 | // Setting the volume for TGeoXtru Mounting Block Support Trapezoid | |
4788 | /////////////////////////////////////////////////////////////////// | |
4789 | TGeoXtru* mountingblocksupportrapezoidownshape[fgklayernumber]; | |
4790 | TGeoXtru* mountingblocksupportrapezoidupshape[fgklayernumber]; | |
4791 | TGeoVolume* mountingblocksupportrapezoidown[fgklayernumber]; | |
4792 | TGeoVolume* mountingblocksupportrapezoidup[fgklayernumber]; | |
4793 | Double_t mountingblocksupportrapezoidownxvertex[fgklayernumber][5]; | |
4794 | Double_t mountingblocksupportrapezoidownyvertex[fgklayernumber][5]; | |
4795 | Double_t mountingblocksupportrapezoidupxvertex[fgklayernumber][5]; | |
4796 | Double_t mountingblocksupportrapezoidupyvertex[fgklayernumber][5]; | |
4797 | char mountingblocksupportrapezoidowname[100]; | |
4798 | char mountingblocksupportrapezoidupname[100]; | |
4799 | Double_t scalefactor = 3./4.; | |
4800 | for(Int_t i=0; i<fgklayernumber; i++){ | |
4801 | //////////////////////////////////////////// | |
4802 | // Mounting Block Support Down Trapezoid Vertex | |
4803 | //////////////////////////////////////////// | |
4804 | mountingblocksupportrapezoidownshape[i] = new TGeoXtru(2); | |
4805 | mountingblocksupportrapezoidownxvertex[i][0] = -0.5*fgkSSDMountingBlockLength[0] | |
4806 | - mountingsupportedge[i]; | |
4807 | mountingblocksupportrapezoidownyvertex[i][0] = mountingblockpiecedownyvertex[i][0]; | |
4808 | mountingblocksupportrapezoidownxvertex[i][1] = | |
4809 | mountingblocksupportrapezoidownxvertex[i][0]; | |
4810 | mountingblocksupportrapezoidownyvertex[i][1] = mountingblockpiecedownyvertex[i][0] | |
4811 | + scalefactor*(mountingblockpiecedownyvertex[i][1] | |
4812 | - mountingblockpiecedownyvertex[i][0]); | |
4813 | mountingblocksupportrapezoidownxvertex[i][2] = -0.5*fgkSSDSensorWidth; | |
4814 | mountingblocksupportrapezoidownyvertex[i][2] = mountingblockpiecedownyvertex[i][1]; | |
4815 | mountingblocksupportrapezoidownxvertex[i][3] = mountingblockpiecedownxvertex[i][0]; | |
4816 | mountingblocksupportrapezoidownyvertex[i][3] = mountingblocksupportrapezoidownyvertex[i][2]; | |
4817 | mountingblocksupportrapezoidownxvertex[i][4] = mountingblocksupportrapezoidownxvertex[i][3]; | |
4818 | mountingblocksupportrapezoidownyvertex[i][4] = mountingblocksupportrapezoidownyvertex[i][0]; | |
4819 | ||
4820 | mountingblocksupportrapezoidownshape[i]->DefinePolygon(5,mountingblocksupportrapezoidownxvertex[i], | |
4821 | mountingblocksupportrapezoidownyvertex[i]); | |
4822 | mountingblocksupportrapezoidownshape[i]->DefineSection(0,fgkMountingBlockSupportWidth[1] | |
4823 | -fgkMountingBlockSupportWidth[0]); | |
4824 | mountingblocksupportrapezoidownshape[i]->DefineSection(1,fgkMountingBlockSupportWidth[1]); | |
4825 | sprintf(mountingblocksupportrapezoidowname,"MountingBlockSuppTrapezoidDownLay%d",i+5); | |
4826 | mountingblocksupportrapezoidown[i] = new TGeoVolume(mountingblocksupportrapezoidowname, | |
4827 | mountingblocksupportrapezoidownshape[i],fSSDCarbonFiberMedium); | |
4828 | mountingblocksupportrapezoidown[i]->SetLineColor(9); | |
4829 | //////////////////////////////////////////// | |
4830 | // Mounting Block Support Up Trapezoid Vertex | |
4831 | //////////////////////////////////////////// | |
4832 | mountingblocksupportrapezoidupshape[i] = new TGeoXtru(2); | |
4833 | mountingblocksupportrapezoidupxvertex[i][0] = -0.5*fgkSSDMountingBlockLength[0] | |
4834 | - mountingsupportedge[i]; | |
4835 | mountingblocksupportrapezoidupyvertex[i][0] = mountingblockpieceupyvertex[i][0]; | |
4836 | mountingblocksupportrapezoidupxvertex[i][1] = | |
4837 | mountingblocksupportrapezoidupxvertex[i][0]; | |
4838 | mountingblocksupportrapezoidupyvertex[i][1] = | |
4839 | mountingblockpieceupyvertex[i][0] | |
4840 | + scalefactor*(mountingblockpieceupyvertex[i][1] | |
4841 | - mountingblockpieceupyvertex[i][0]); | |
4842 | mountingblocksupportrapezoidupxvertex[i][2] = -0.5*fgkSSDSensorWidth; | |
4843 | mountingblocksupportrapezoidupyvertex[i][2] = mountingblockpieceupyvertex[i][1]; | |
4844 | mountingblocksupportrapezoidupxvertex[i][3] = mountingblockpieceupxvertex[i][0]; | |
4845 | mountingblocksupportrapezoidupyvertex[i][3] = mountingblocksupportrapezoidupyvertex[i][2]; | |
4846 | mountingblocksupportrapezoidupxvertex[i][4] = mountingblocksupportrapezoidupxvertex[i][3]; | |
4847 | mountingblocksupportrapezoidupyvertex[i][4] = mountingblocksupportrapezoidupyvertex[i][0]; | |
4848 | ||
4849 | mountingblocksupportrapezoidupshape[i]->DefinePolygon(5,mountingblocksupportrapezoidupxvertex[i], | |
4850 | mountingblocksupportrapezoidupyvertex[i]); | |
4851 | mountingblocksupportrapezoidupshape[i]->DefineSection(0,fgkMountingBlockSupportWidth[1] | |
4852 | -fgkMountingBlockSupportWidth[0]); | |
4853 | mountingblocksupportrapezoidupshape[i]->DefineSection(1,fgkMountingBlockSupportWidth[1]); | |
4854 | sprintf(mountingblocksupportrapezoidupname,"MountingBlockSuppTrapezoidUpLay%d",i+5); | |
4855 | mountingblocksupportrapezoidup[i] = new TGeoVolume(mountingblocksupportrapezoidupname, | |
4856 | mountingblocksupportrapezoidupshape[i],fSSDCarbonFiberMedium); | |
4857 | mountingblocksupportrapezoidup[i]->SetLineColor(9); | |
4858 | } | |
4859 | /////////////////////////////////////////////////////////////////// | |
4860 | for(Int_t i=0; i<fgklayernumber; i++) mountingblocksupportboxdown[i] = new TGeoVolume*[3]; | |
4861 | for(Int_t i=0; i<fgklayernumber; i++) mountingblocksupportboxup[i] = new TGeoVolume*[3]; | |
4862 | Double_t boxoriginup[fgklayernumber][2][3]; | |
4863 | Double_t boxorigindown[fgklayernumber][2][3]; | |
4864 | char mountingblocksupportboxdownname[100]; | |
4865 | char mountingblocksupportboxupname[100]; | |
4866 | TGeoRotation* mountingblocksupportrot = new TGeoRotation(); | |
4867 | mountingblocksupportrot->SetAngles(90.,180.,-90); | |
4868 | TGeoRotation* globalrefladdersupportrot = new TGeoRotation(); | |
4869 | globalrefladdersupportrot->SetAngles(0.,90.,0.); | |
4870 | TGeoHMatrix* laddersupportmatrix[2]; | |
4871 | laddersupportmatrix[0] = new TGeoHMatrix(*globalrefladdersupportrot); | |
4872 | laddersupportmatrix[1] = new TGeoHMatrix((*globalrefladdersupportrot)*(*mountingblocksupportrot)); | |
4873 | ///////////////////////////////////////////////////////////// | |
4874 | // Creating Mother Volume for Containment | |
4875 | ///////////////////////////////////////////////////////////// | |
4876 | Double_t *xmothervertex[fgklayernumber]; | |
4877 | Double_t *ymothervertex[fgklayernumber]; | |
4878 | for(Int_t i=0; i<fgklayernumber; i++){ | |
4879 | xmothervertex[i] = new Double_t[8]; | |
4880 | ymothervertex[i] = new Double_t[8]; | |
4881 | } | |
4882 | TGeoXtru* downmotherladdersupportshape[fgklayernumber]; | |
4883 | TGeoVolume* downmotherladdersupport[fgklayernumber]; | |
4884 | TGeoXtru* upmotherladdersupportshape[fgklayernumber]; | |
4885 | TGeoVolume* upmotherladdersupport[fgklayernumber]; | |
4886 | char upmotheladdersupportname[100]; | |
4887 | char downmotheladdersupportname[100]; | |
4888 | for(Int_t i=0; i<fgklayernumber; i++){ | |
4889 | xmothervertex[i][0] = -0.5*fgkSSDMountingBlockLength[0] | |
4890 | - mountingsupportedge[i]; | |
4891 | ymothervertex[i][0] = -fgkMountingBlockSupportWidth[1]; | |
4892 | xmothervertex[i][1] = xmothervertex[i][0]; | |
4893 | ymothervertex[i][1] = -fgkMountingBlockSupportWidth[1] | |
4894 | + fgkMountingBlockSupportWidth[0]; | |
4895 | xmothervertex[i][2] = -0.5*fgkSSDMountingBlockLength[0]; | |
4896 | ymothervertex[i][2] = ymothervertex[i][1]; | |
4897 | xmothervertex[i][3] = xmothervertex[i][2]; | |
4898 | ymothervertex[i][3] = -ymothervertex[i][0]; | |
4899 | xmothervertex[i][4] = -xmothervertex[i][0]; | |
4900 | ymothervertex[i][4] = ymothervertex[i][3]; | |
4901 | xmothervertex[i][5] = xmothervertex[i][4]; | |
4902 | ymothervertex[i][5] = -ymothervertex[i][1]; | |
4903 | xmothervertex[i][6] = -xmothervertex[i][2]; | |
4904 | ymothervertex[i][6] = ymothervertex[i][5]; | |
4905 | xmothervertex[i][7] = xmothervertex[i][6]; | |
4906 | ymothervertex[i][7] = ymothervertex[i][0]; | |
4907 | ||
4908 | sprintf(downmotheladdersupportname,"LadderSupportDownLay%d",i+5); | |
4909 | sprintf(upmotheladdersupportname,"LadderSupportUpLay%d",i+5); | |
4910 | ||
4911 | downmotherladdersupportshape[i] = new TGeoXtru(2); | |
4912 | downmotherladdersupportshape[i]->DefinePolygon(8,xmothervertex[i],ymothervertex[i]); | |
4913 | downmotherladdersupportshape[i]->DefineSection(0,ysidevertex[i][0]); | |
4914 | downmotherladdersupportshape[i]->DefineSection(1,ysidevertex[i][1] | |
4915 | + fgkMountingBlockSupportDownHeight | |
4916 | + fgkSSDMountingBlockHeight[1] | |
4917 | - 0.5*fgkCoolingTubeSupportHeight | |
4918 | - fgkSSDModuleCoolingBlockToSensor | |
4919 | - fgkSSDLadderVerticalDisalignment); | |
4920 | ||
4921 | // - fgkSSDModuleVerticalDisalignment); | |
4922 | //downmotherladdersupport[i] = new TGeoVolumeAssembly(downmotheladdersupportname); | |
4923 | ||
4924 | downmotherladdersupport[i] = new TGeoVolume(downmotheladdersupportname, | |
4925 | downmotherladdersupportshape[i],fSSDAir); | |
4926 | upmotherladdersupportshape[i] = new TGeoXtru(2); | |
4927 | upmotherladdersupportshape[i]->DefinePolygon(8,xmothervertex[i],ymothervertex[i]); | |
4928 | upmotherladdersupportshape[i]->DefineSection(0,ysidevertex[i][0]); | |
4929 | upmotherladdersupportshape[i]->DefineSection(1,ysidevertex[i][1] | |
4930 | + fgkMountingBlockSupportUpHeight[i] | |
4931 | + fgkSSDMountingBlockHeight[1] | |
4932 | - 0.5*fgkCoolingTubeSupportHeight | |
4933 | - fgkSSDModuleCoolingBlockToSensor | |
4934 | - fgkSSDLadderVerticalDisalignment); | |
4935 | ||
4936 | upmotherladdersupport[i] = new TGeoVolume(upmotheladdersupportname, | |
4937 | upmotherladdersupportshape[i],fSSDAir); | |
4938 | } | |
4939 | for(Int_t i=0; i<fgklayernumber; i++){ | |
4940 | ///////////////////////// | |
4941 | // Setting the box origin | |
4942 | ///////////////////////// | |
4943 | boxorigindown[i][0][0] = -0.5*mountingsupportedge[i]; | |
4944 | boxorigindown[i][0][1] = fgkMountingBlockSupportRadius[i] | |
4945 | + 0.5*fgkMountingBlockSupportDownHeight | |
4946 | - 0.5*fgkSSDLadderVerticalDisalignment; | |
4947 | boxorigindown[i][0][2] = fgkMountingBlockSupportWidth[1] | |
4948 | - 0.5*fgkMountingBlockSupportWidth[0]; | |
4949 | ||
4950 | boxorigindown[i][1][0] = 0.0; | |
4951 | boxorigindown[i][1][1] = boxorigindown[i][0][1]; | |
4952 | boxorigindown[i][1][2] = 0.5*(fgkMountingBlockSupportWidth[1] | |
4953 | - fgkMountingBlockSupportWidth[0]); | |
4954 | ||
4955 | boxoriginup[i][0][0] = -0.5*mountingsupportedge[i]; | |
4956 | boxoriginup[i][0][1] = fgkMountingBlockSupportRadius[i] | |
4957 | + 0.5*fgkMountingBlockSupportUpHeight[i] | |
4958 | - 0.5*fgkSSDLadderVerticalDisalignment; | |
4959 | boxoriginup[i][0][2] = fgkMountingBlockSupportWidth[1] | |
4960 | - 0.5*fgkMountingBlockSupportWidth[0]; | |
4961 | ||
4962 | boxoriginup[i][1][0] = 0.0; | |
4963 | boxoriginup[i][1][1] = boxoriginup[i][0][1]; | |
4964 | boxoriginup[i][1][2] = 0.5*(fgkMountingBlockSupportWidth[1] | |
4965 | - fgkMountingBlockSupportWidth[0]); | |
4966 | ||
4967 | ///////////////////////// | |
4968 | // Setting the boxes | |
4969 | ///////////////////////// | |
4970 | mountingblocksupportboxdownshape[i][0] = new TGeoBBox(0.5*(mountingsupportedge[i] | |
4971 | + fgkSSDMountingBlockLength[0]), | |
4972 | 0.5*fgkMountingBlockSupportDownHeight - 0.5*fgkSSDLadderVerticalDisalignment, | |
4973 | 0.5*fgkMountingBlockSupportWidth[0], | |
4974 | boxorigindown[i][0]); | |
4975 | mountingblocksupportboxdownshape[i][1] = new TGeoBBox(0.5*fgkSSDMountingBlockLength[0], | |
4976 | 0.5*fgkMountingBlockSupportDownHeight - 0.5*fgkSSDLadderVerticalDisalignment, | |
4977 | 0.5*(fgkMountingBlockSupportWidth[1] | |
4978 | - fgkMountingBlockSupportWidth[0]), | |
4979 | boxorigindown[i][1]); | |
4980 | ||
4981 | mountingblocksupportboxupshape[i][0] = new TGeoBBox(0.5*(mountingsupportedge[i] | |
4982 | + fgkSSDMountingBlockLength[0]), | |
4983 | 0.5*fgkMountingBlockSupportUpHeight[i] - 0.5*fgkSSDLadderVerticalDisalignment, | |
4984 | 0.5*fgkMountingBlockSupportWidth[0], | |
4985 | boxoriginup[i][0]); | |
4986 | ||
4987 | mountingblocksupportboxupshape[i][1] = new TGeoBBox(0.5*fgkSSDMountingBlockLength[0], | |
4988 | 0.5*fgkMountingBlockSupportUpHeight[i] - 0.5*fgkSSDLadderVerticalDisalignment, | |
4989 | 0.5*(fgkMountingBlockSupportWidth[1] | |
4990 | - fgkMountingBlockSupportWidth[0]), | |
4991 | boxoriginup[i][1]); | |
4992 | /////////////////////////////////////// | |
4993 | // Adding the Volumes to Mother Volume | |
4994 | /////////////////////////////////////// | |
4995 | for(Int_t j=0; j<2; j++){ | |
4996 | sprintf(mountingblocksupportboxdownname,"MountingBlockSuppDownLay%dBox%d",i+5,j+1); | |
4997 | sprintf(mountingblocksupportboxupname,"MountingBlockSuppUpLay%dBox%d",i+5,j+1); | |
4998 | mountingblocksupportboxdown[i][j] = new TGeoVolume(mountingblocksupportboxdownname, | |
4999 | mountingblocksupportboxdownshape[i][j], | |
5000 | fSSDCarbonFiberMedium); | |
5001 | mountingblocksupportboxup[i][j] = new TGeoVolume(mountingblocksupportboxupname, | |
5002 | mountingblocksupportboxupshape[i][j], | |
5003 | fSSDCarbonFiberMedium); | |
5004 | mountingblocksupportboxdown[i][j]->SetLineColor(9); | |
5005 | mountingblocksupportboxup[i][j]->SetLineColor(9); | |
5006 | for(Int_t k=0; k<2; k++){ | |
5007 | downmotherladdersupport[i]->AddNode(mountingblocksupportboxdown[i][j],k+1,laddersupportmatrix[k]); | |
5008 | upmotherladdersupport[i]->AddNode(mountingblocksupportboxup[i][j],k+1,laddersupportmatrix[k]); | |
5009 | } | |
5010 | } | |
5011 | for(Int_t k=0; k<2; k++){ | |
5012 | downmotherladdersupport[i]->AddNode(centermountingblocksupport[i],k+1,laddersupportmatrix[k]); | |
5013 | downmotherladdersupport[i]->AddNode(sidemountingblocksupport[i],k+1,laddersupportmatrix[k]); | |
5014 | downmotherladdersupport[i]->AddNode(sideladdersupportpiece[i],k+1,laddersupportmatrix[k]); | |
5015 | downmotherladdersupport[i]->AddNode(centerladdersupportpiece[i],k+1,laddersupportmatrix[k]); | |
5016 | downmotherladdersupport[i]->AddNode(mountingblockpiecedown[i],k+1,laddersupportmatrix[k]); | |
5017 | downmotherladdersupport[i]->AddNode(mountingblocksupportrapezoidown[i],k+1,laddersupportmatrix[k]); | |
5018 | upmotherladdersupport[i]->AddNode(centermountingblocksupport[i],k+1,laddersupportmatrix[k]); | |
5019 | upmotherladdersupport[i]->AddNode(sidemountingblocksupport[i],k+1,laddersupportmatrix[k]); | |
5020 | upmotherladdersupport[i]->AddNode(sideladdersupportpiece[i],k+1,laddersupportmatrix[k]); | |
5021 | upmotherladdersupport[i]->AddNode(centerladdersupportpiece[i],k+1,laddersupportmatrix[k]); | |
5022 | upmotherladdersupport[i]->AddNode(mountingblockpieceup[i],k+1,laddersupportmatrix[k]); | |
5023 | upmotherladdersupport[i]->AddNode(mountingblocksupportrapezoidup[i],k+1,laddersupportmatrix[k]); | |
5024 | } | |
5025 | } | |
5026 | TList* laddersupportlist = new TList(); | |
5027 | laddersupportlist->Add(downmotherladdersupport[0]); | |
5028 | laddersupportlist->Add(upmotherladdersupport[0]); | |
5029 | laddersupportlist->Add(downmotherladdersupport[1]); | |
5030 | laddersupportlist->Add(upmotherladdersupport[1]); | |
5031 | ///////////////////////////////////////////////////////////// | |
5032 | // Deallocating memory | |
5033 | ///////////////////////////////////////////////////////////// | |
5034 | for(Int_t i=0; i<fgklayernumber; i++){ | |
5035 | for(Int_t j=0; j<nedges+1; j++) | |
5036 | delete vertex[i][j]; | |
5037 | delete mountingsupportedgevector[i]; | |
5038 | delete [] vertex[i]; | |
5039 | delete vertexlist[i]; | |
5040 | delete [] xsidevertex[i]; | |
5041 | delete [] ysidevertex[i]; | |
5042 | delete [] xcentervertex[i]; | |
5043 | delete [] ycentervertex[i]; | |
5044 | delete [] xsidelowervertex[i]; | |
5045 | delete [] ysidelowervertex[i]; | |
5046 | delete [] xcenterlowervertex[i]; | |
5047 | delete [] ycenterlowervertex[i]; | |
5048 | delete [] xmothervertex[i]; | |
5049 | delete [] ymothervertex[i]; | |
5050 | } | |
5051 | delete [] xsidevertex; | |
5052 | delete [] ysidevertex; | |
5053 | delete [] xcentervertex; | |
5054 | delete [] ycentervertex; | |
5055 | delete [] xsidelowervertex; | |
5056 | delete [] ysidelowervertex; | |
5057 | delete [] xcenterlowervertex; | |
5058 | delete [] ycenterlowervertex; | |
5059 | delete globalrefladdersupportrot; | |
5060 | delete mountingblocksupportrot; | |
5061 | ///////////////////// | |
5062 | return laddersupportlist; | |
5063 | } | |
5064 | //////////////////////////////////////////////////////////////////////////////// | |
5065 | void AliITSv11GeometrySSD::SetLadderSupport(Int_t nedges){ | |
5066 | ////////////////////////////////////////// | |
5067 | // Method Generating Ladder Support Ring | |
5068 | ////////////////////////////////////////// | |
5069 | if(!fCreateMaterials) CreateMaterials(); | |
5070 | if(!fTransformationMatrices) CreateTransformationMatrices(); | |
5071 | if(!fBasicObjects) CreateBasicObjects(); | |
5072 | fLay5LadderSupportRing = new TGeoVolumeAssembly("Lay5LadderSupportRing"); | |
5073 | fLay6LadderSupportRing = new TGeoVolumeAssembly("Lay6LadderSupportRing"); | |
5074 | const Int_t kssdlayladdernumber[fgklayernumber] = | |
5075 | {fgkSSDLay5LadderNumber,fgkSSDLay6LadderNumber}; | |
5076 | Double_t mountingsupportedge[fgklayernumber]; | |
5077 | Double_t mountingblockratio[fgklayernumber]; | |
5078 | Double_t theta[fgklayernumber]; | |
5079 | Double_t phi[fgklayernumber]; | |
5080 | for(Int_t i=0; i<fgklayernumber; i++){ | |
5081 | mountingblockratio[i] = fgkSSDMountingBlockLength[0]/fgkMountingBlockSupportRadius[i]; | |
5082 | mountingsupportedge[i] = 0.5*fgkMountingBlockSupportRadius[i] | |
5083 | *(TMath::Sqrt((2.-mountingblockratio[i])*(2.+mountingblockratio[i])) | |
5084 | * TMath::Sin(2.0*TMath::Pi()/kssdlayladdernumber[i]) | |
5085 | - mountingblockratio[i]*(1.0+TMath::Cos(2.0*TMath::Pi() | |
5086 | / kssdlayladdernumber[i]))); | |
5087 | theta[i] = TMath::ASin(0.5*mountingblockratio[i]+mountingsupportedge[i] | |
5088 | / fgkMountingBlockSupportRadius[i]); | |
5089 | phi[i] = TMath::ASin(0.5*mountingblockratio[i]); | |
5090 | } | |
5091 | TGeoRotation* globalrot = new TGeoRotation(); | |
5092 | globalrot->SetAngles(0.,-90.,0.); | |
5093 | TGeoRotation** laddersupportrot[fgklayernumber]; | |
5094 | TGeoHMatrix** laddersupportmatrix[fgklayernumber]; | |
5095 | for(Int_t i=0; i<fgklayernumber; i++){ | |
5096 | laddersupportrot[i] = new TGeoRotation*[kssdlayladdernumber[i]]; | |
5097 | laddersupportmatrix[i] = new TGeoHMatrix*[kssdlayladdernumber[i]]; | |
5098 | for(Int_t j=0; j<kssdlayladdernumber[i]; j++){ | |
5099 | laddersupportrot[i][j] = new TGeoRotation(); | |
5100 | laddersupportrot[i][j]->SetAngles(j*(phi[i]+theta[i])*TMath::RadToDeg(),0.,0.); | |
5101 | switch(i){ | |
5102 | case 0: //Ladder of Layer5 | |
5103 | laddersupportmatrix[i][j] = new TGeoHMatrix((*laddersupportrot[i][j])*(*globalrot)); | |
5104 | fLay5LadderSupportRing->AddNode(j%2==0?fLay5LadderSupport[0]:fLay5LadderSupport[1],j+1, | |
5105 | laddersupportmatrix[i][j]); | |
5106 | break; | |
5107 | case 1: //Ladder of Layer6 | |
5108 | laddersupportmatrix[i][j] = new TGeoHMatrix((*laddersupportrot[i][j])*(*globalrot)); | |
5109 | fLay6LadderSupportRing->AddNode(j%2==0?fLay6LadderSupport[0]:fLay6LadderSupport[1],j+1, | |
5110 | laddersupportmatrix[i][j]); | |
5111 | break; | |
5112 | } | |
5113 | } | |
5114 | } | |
5115 | ///////////////////////////////////////////////////////////// | |
5116 | // Creating Lower Ladder Support | |
5117 | ///////////////////////////////////////////////////////////// | |
5118 | TVector3** ringsupportvertex[fgklayernumber]; | |
5119 | Double_t angle = 360./nedges; | |
5120 | for(Int_t i=0; i<fgklayernumber; i++){ | |
5121 | ringsupportvertex[i] = new TVector3*[2*kssdlayladdernumber[i]+3+nedges]; | |
5122 | ringsupportvertex[i][0] = new TVector3(0.,fgkMountingBlockSupportRadius[i] | |
5123 | * TMath::Cos(theta[i])); | |
5124 | ringsupportvertex[i][1] = new TVector3(-0.5*fgkSSDMountingBlockLength[0] | |
5125 | - mountingsupportedge[i], | |
5126 | ringsupportvertex[i][0]->Y()); | |
5127 | ringsupportvertex[i][2] = new TVector3(0.5*fgkSSDMountingBlockLength[0], | |
5128 | ringsupportvertex[i][1]->Y()); | |
5129 | ringsupportvertex[i][2]->RotateZ(theta[i]+phi[i]); | |
5130 | for(Int_t j=1; j<kssdlayladdernumber[i]; j++){ | |
5131 | ringsupportvertex[i][2*j+1] = new TVector3(*ringsupportvertex[i][1]); | |
5132 | ringsupportvertex[i][2*j+1]->RotateZ(j*(theta[i]+phi[i])); | |
5133 | ringsupportvertex[i][2*j+2] = new TVector3(*ringsupportvertex[i][2]); | |
5134 | ringsupportvertex[i][2*j+2]->RotateZ(j*(theta[i]+phi[i])); | |
5135 | } | |
5136 | ringsupportvertex[i][2*kssdlayladdernumber[i]+1] = new TVector3(*ringsupportvertex[i][0]); | |
5137 | for(Int_t j=0; j<nedges+1; j++){ | |
5138 | ringsupportvertex[i][2*kssdlayladdernumber[i]+2+j] = | |
5139 | new TVector3((ringsupportvertex[i][0]->Y()-fgkLadderSupportHeigth)*CosD(90.0-j*angle), | |
5140 | (ringsupportvertex[i][0]->Y()-fgkLadderSupportHeigth)*SinD(90.0-j*angle)); | |
5141 | } | |
5142 | } | |
5143 | Double_t **xmothervertex = new Double_t*[fgklayernumber]; | |
5144 | Double_t **ymothervertex = new Double_t*[fgklayernumber]; | |
5145 | for(Int_t i=0; i<fgklayernumber; i++){ | |
5146 | xmothervertex[i] = new Double_t[2*kssdlayladdernumber[i]+3+nedges]; | |
5147 | ymothervertex[i] = new Double_t[2*kssdlayladdernumber[i]+3+nedges]; | |
5148 | for(Int_t j=0; j<2*kssdlayladdernumber[i]+3+nedges; j++){ | |
5149 | xmothervertex[i][j] = ringsupportvertex[i][j]->X(); | |
5150 | ymothervertex[i][j] = ringsupportvertex[i][j]->Y(); | |
5151 | } | |
5152 | } | |
5153 | //////////////////////////////////////////////////////////////////////////////// | |
5154 | // Start Corrections 13/06/08 | |
5155 | //////////////////////////////////////////////////////////////////////////////// | |
5156 | char lowerladderpconsupportname[100]; | |
5157 | TGeoPcon* lowerladderpconsupportshape[fgklayernumber]; | |
5158 | TGeoVolume* lowerladderpconsupport[fgklayernumber]; | |
5159 | Double_t lowerladderpconezsection[2] = {0.,fgkMountingBlockSupportWidth[1]}; | |
5160 | Double_t lowerladderpconradiusmax[fgklayernumber]; | |
5161 | Double_t lowerladderpconradiusmin[fgklayernumber]; | |
5162 | TGeoRotation* lowerladdersupportrot = new TGeoRotation(); | |
5163 | lowerladdersupportrot->SetAngles(90.,180.,-90); | |
5164 | for(Int_t i=0; i<fgklayernumber; i++){ | |
5165 | lowerladderpconradiusmax[i] = fgkMountingBlockSupportRadius[i] | |
5166 | * TMath::Cos(theta[i]); | |
5167 | lowerladderpconradiusmin[i] = lowerladderpconradiusmax[i]-fgkLadderSupportHeigth; | |
5168 | } | |
5169 | for(Int_t i=0; i<fgklayernumber; i++){ | |
5170 | /////////////////////////// Modified Version ?/////////////////// | |
5171 | lowerladderpconsupportshape[i] = new TGeoPcon(0.,360.,2); | |
5172 | for(Int_t j=0; j<2; j++) lowerladderpconsupportshape[i]->DefineSection(j, | |
5173 | lowerladderpconezsection[j],lowerladderpconradiusmin[i], | |
5174 | lowerladderpconradiusmax[i]); | |
5175 | sprintf(lowerladderpconsupportname,"LowerLadderPConSupportNameLay%d",i+5); | |
5176 | lowerladderpconsupport[i] = new TGeoVolume(lowerladderpconsupportname,lowerladderpconsupportshape[i],fSSDSupportRingAl); | |
5177 | lowerladderpconsupport[i]->SetLineColor(fColorAl); | |
5178 | (i==0 ? fLay5LadderSupportRing: fLay6LadderSupportRing)->AddNode(lowerladderpconsupport[i],1); | |
5179 | (i==0 ? fLay5LadderSupportRing: fLay6LadderSupportRing)->AddNode(lowerladderpconsupport[i],2,lowerladdersupportrot); | |
5180 | } | |
5181 | //////////////////////////////////////////////////////////////////////////////// | |
5182 | // End Corrections 13/06/08 | |
5183 | //////////////////////////////////////////////////////////////////////////////// | |
5184 | /*char lowerladdersupportname[30]; | |
5185 | TGeoXtru* lowerladdersupportshape[fgklayernumber]; | |
5186 | TGeoVolume* lowerladdersupport[fgklayernumber]; | |
5187 | TGeoRotation* lowerladdersupportrot = new TGeoRotation(); | |
5188 | lowerladdersupportrot->SetAngles(90.,180.,-90); | |
5189 | for(Int_t i=0; i<fgklayernumber; i++){ | |
5190 | lowerladdersupportshape[i] = new TGeoXtru(2); | |
5191 | lowerladdersupportshape[i]->DefinePolygon(2*kssdlayladdernumber[i]+3+nedges, | |
5192 | xmothervertex[i],ymothervertex[i]); | |
5193 | lowerladdersupportshape[i]->DefineSection(0,0.); | |
5194 | lowerladdersupportshape[i]->DefineSection(1,fgkMountingBlockSupportWidth[1]); | |
5195 | sprintf(lowerladdersupportname,"LowerLadderSupportNameLay%d",i+5); | |
5196 | lowerladdersupport[i] = new TGeoVolume(lowerladdersupportname, | |
5197 | lowerladdersupportshape[i],fSSDSupportRingAl); | |
5198 | lowerladdersupport[i]->SetLineColor(fColorAl); | |
5199 | (i==0 ? fLay5LadderSupportRing: fLay6LadderSupportRing)->AddNode(lowerladdersupport[i],1); | |
5200 | (i==0 ? fLay5LadderSupportRing: fLay6LadderSupportRing)->AddNode(lowerladdersupport[i],2,lowerladdersupportrot); | |
5201 | }*/ | |
5202 | ///////////////////////////////////////////////////////////// | |
5203 | // Deallocating memory | |
5204 | ///////////////////////////////////////////////////////////// | |
5205 | for(Int_t i=0; i<fgklayernumber; i++){ | |
5206 | for(Int_t j=0; j<2*kssdlayladdernumber[i]+3+nedges; j++) | |
5207 | delete ringsupportvertex[i][j]; | |
5208 | delete [] ringsupportvertex[i]; | |
5209 | } | |
5210 | for(Int_t i=0; i<fgklayernumber; i++){ | |
5211 | delete [] xmothervertex[i]; | |
5212 | delete [] ymothervertex[i]; | |
5213 | } | |
5214 | delete [] xmothervertex; | |
5215 | delete [] ymothervertex; | |
5216 | delete globalrot; | |
5217 | for(Int_t i=0; i<fgklayernumber; i++){ | |
5218 | for(Int_t j=0; j<kssdlayladdernumber[i]; j++) | |
5219 | delete laddersupportrot[i][j]; | |
5220 | delete [] laddersupportrot[i]; | |
5221 | } | |
5222 | } | |
5223 | //////////////////////////////////////////////////////////////////////////////// | |
5224 | TGeoVolume* AliITSv11GeometrySSD::GetEndCapCoverPlate(){ | |
5225 | ///////////////////////////////////////////////////////////// | |
5226 | // Method generating Endcap CoverPlate | |
5227 | ///////////////////////////////////////////////////////////// | |
5228 | // Holes Definition | |
5229 | /////////////////// | |
5230 | Int_t nendcapcoverplateholedges = 30; | |
5231 | const Int_t kendcapcoverplatesmallholenumber[2] = {4,9}; | |
5232 | Double_t holesection[2] = {-0.5*fgkEndCapCoverPlateThickness, | |
5233 | 0.5*fgkEndCapCoverPlateThickness}; | |
5234 | TGeoShape* endcapcoverplatesmallholeshape = GetHoleShape(fgkEndCapCoverPlateSmallHoleRadius, | |
5235 | nendcapcoverplateholedges,holesection); | |
5236 | TGeoVolume* endcapcoverplatesmallhole = new TGeoVolume("EndCapCoverPlateSmallHole", | |
5237 | endcapcoverplatesmallholeshape,fSSDAlCoolBlockMedium); | |
5238 | endcapcoverplatesmallhole->SetLineColor(6); | |
5239 | TGeoShape* endcapcoverplatebigholeshape = GetHoleShape(fgkEndCapCoverPlateBigHoleRadius, | |
5240 | nendcapcoverplateholedges,holesection); | |
5241 | TGeoVolume* endcapcoverplatebighole = new TGeoVolume("EndCapCoverPlateBigHole", | |
5242 | endcapcoverplatebigholeshape,fSSDAlCoolBlockMedium); | |
5243 | endcapcoverplatebighole->SetLineColor(6); | |
5244 | ////////////////////////// | |
5245 | // Screw Piece Definition | |
5246 | ////////////////////////// | |
5247 | Double_t smallscrewangle = 360.0/nendcapcoverplateholedges; | |
5248 | TGeoTube* endcapsmallscrewpieceshape = new TGeoTube(0.0,fgkEndCapCoverPlateSmallHoleRadius* | |
5249 | CosD(0.5*smallscrewangle), | |
5250 | 0.5*fgkEndCapCoverPlateThickness); | |
5251 | TGeoVolume* endcapsmallscrewpiece = new TGeoVolume("EndCapCoverPlateSmallScrewPiece", | |
5252 | endcapsmallscrewpieceshape, | |
5253 | fSSDCoolingTubePhynox); | |
5254 | endcapsmallscrewpiece->SetLineColor(fColorPhynox); | |
5255 | /////////////////// | |
5256 | // Box Definition | |
5257 | /////////////////// | |
5258 | TGeoBBox* endcapcoverplateboxshape[4]; | |
5259 | TGeoVolume* endcapcoverplatebox[4]; | |
5260 | Double_t boxorigin[5][3]; | |
5261 | boxorigin[0][0] = 0.; | |
5262 | boxorigin[0][1] = 0.5*fgkEndCapCoverPlateSmallHoleSeparation[2]; | |
5263 | boxorigin[0][2] = 0.; | |
5264 | ||
5265 | boxorigin[1][0] = 0.5*fgkEndCapCoverPlateSmallHoleSeparation[0]; | |
5266 | boxorigin[1][1] = 4.*fgkEndCapCoverPlateSmallHoleSeparation[2]; | |
5267 | boxorigin[1][2] = 0.; | |
5268 | ||
5269 | boxorigin[2][0] = 1.5*fgkEndCapCoverPlateSmallHoleSeparation[0] | |
5270 | + fgkEndCapCoverPlateSmallHoleSeparation[1]; | |
5271 | boxorigin[2][1] = boxorigin[1][1]; | |
5272 | boxorigin[2][2] = 0.; | |
5273 | ||
5274 | boxorigin[3][0] = fgkEndCapCoverPlateSmallHoleSeparation[0] | |
5275 | + 0.5*fgkEndCapCoverPlateSmallHoleSeparation[1]; | |
5276 | boxorigin[3][1] = boxorigin[1][1]; | |
5277 | boxorigin[3][2] = 0.; | |
5278 | ||
5279 | endcapcoverplateboxshape[0] = new TGeoBBox(fgkEndCapCoverPlateSmallHoleRadius, | |
5280 | 0.5*(fgkEndCapCoverPlateSmallHoleSeparation[2] | |
5281 | - 2.*fgkEndCapCoverPlateSmallHoleRadius), | |
5282 | 0.5*fgkEndCapCoverPlateThickness,boxorigin[0]); | |
5283 | ||
5284 | endcapcoverplateboxshape[1] = new TGeoBBox(0.5*(fgkEndCapCoverPlateSmallHoleSeparation[0] | |
5285 | -2.*fgkEndCapCoverPlateSmallHoleRadius), | |
5286 | 4.*fgkEndCapCoverPlateSmallHoleSeparation[2] | |
5287 | + fgkEndCapCoverPlateSmallHoleRadius, | |
5288 | 0.5*fgkEndCapCoverPlateThickness,boxorigin[1]); | |
5289 | ||
5290 | endcapcoverplateboxshape[2] = new TGeoBBox(0.5*(fgkEndCapCoverPlateSmallHoleSeparation[0] | |
5291 | -2.*fgkEndCapCoverPlateSmallHoleRadius), | |
5292 | 4.*fgkEndCapCoverPlateSmallHoleSeparation[2] | |
5293 | + fgkEndCapCoverPlateSmallHoleRadius, | |
5294 | 0.5*fgkEndCapCoverPlateThickness,boxorigin[2]); | |
5295 | ||
5296 | endcapcoverplateboxshape[3] = new TGeoBBox(0.5*(fgkEndCapCoverPlateSmallHoleSeparation[1] | |
5297 | -2.*fgkEndCapCoverPlateSmallHoleRadius), | |
5298 | 4.*fgkEndCapCoverPlateSmallHoleSeparation[2] | |
5299 | + fgkEndCapCoverPlateSmallHoleRadius, | |
5300 | 0.5*fgkEndCapCoverPlateThickness,boxorigin[3]); | |
5301 | ||
5302 | endcapcoverplatebox[0] = new TGeoVolume("EndCapCoverPlateBox1",endcapcoverplateboxshape[0], | |
5303 | fSSDAlCoolBlockMedium); | |
5304 | endcapcoverplatebox[1] = new TGeoVolume("EndCapCoverPlateBox2",endcapcoverplateboxshape[1], | |
5305 | fSSDAlCoolBlockMedium); | |
5306 | endcapcoverplatebox[2] = new TGeoVolume("EndCapCoverPlateBox3",endcapcoverplateboxshape[2], | |
5307 | fSSDAlCoolBlockMedium); | |
5308 | endcapcoverplatebox[3] = new TGeoVolume("EndCapCoverPlateBox4",endcapcoverplateboxshape[3], | |
5309 | fSSDAlCoolBlockMedium); | |
5310 | endcapcoverplatebox[0]->SetLineColor(6); | |
5311 | endcapcoverplatebox[1]->SetLineColor(6); | |
5312 | endcapcoverplatebox[2]->SetLineColor(6); | |
5313 | endcapcoverplatebox[3]->SetLineColor(6); | |
5314 | Double_t endcapfillingboxorigin[3] = {fgkEndCapCoverPlateSmallHoleSeparation[0],0.,0.}; | |
5315 | TGeoBBox* endcapfillingboxshape = new TGeoBBox(fgkEndCapCoverPlateSmallHoleRadius, | |
5316 | fgkEndCapCoverPlateSmallHoleRadius, | |
5317 | 0.5*fgkEndCapCoverPlateThickness, | |
5318 | endcapfillingboxorigin); | |
5319 | TGeoVolume* endcapfillingbox = new TGeoVolume("EndCapFillingBox",endcapfillingboxshape, | |
5320 | fSSDAlCoolBlockMedium); | |
5321 | endcapfillingbox->SetLineColor(6); | |
5322 | //////////////////////////// | |
5323 | // Contour shape Definition | |
5324 | //////////////////////////// | |
5325 | const Int_t kcontourvertexnumber = 10; | |
5326 | Double_t xcontourvertex[kcontourvertexnumber]; | |
5327 | Double_t ycontourvertex[kcontourvertexnumber]; | |
5328 | xcontourvertex[0] = -fgkEndCapCoverPlateLength[0]; | |
5329 | xcontourvertex[1] = xcontourvertex[0]; | |
5330 | xcontourvertex[2] = fgkEndCapCoverPlateLength[1]-xcontourvertex[0]; | |
5331 | xcontourvertex[3] = xcontourvertex[2]; | |
5332 | xcontourvertex[4] = -fgkEndCapCoverPlateSmallHoleRadius; | |
5333 | xcontourvertex[5] = xcontourvertex[4]; | |
5334 | xcontourvertex[6] = fgkEndCapCoverPlateLength[1]+fgkEndCapCoverPlateSmallHoleRadius; | |
5335 | xcontourvertex[7] = xcontourvertex[6]; | |
5336 | xcontourvertex[8] = xcontourvertex[4]; | |
5337 | xcontourvertex[9] = xcontourvertex[8]; | |
5338 | ycontourvertex[0] = -0.5*(fgkEndCapCoverPlateWidth[0]-fgkEndCapCoverPlateWidth[2] | |
5339 | - (kendcapcoverplatesmallholenumber[1]-1) | |
5340 | * fgkEndCapCoverPlateSmallHoleSeparation[2]); | |
5341 | ycontourvertex[1] = (kendcapcoverplatesmallholenumber[1]-1) | |
5342 | * fgkEndCapCoverPlateSmallHoleSeparation[2]-ycontourvertex[0]; | |
5343 | ycontourvertex[2] = ycontourvertex[1]; | |
5344 | ycontourvertex[3] = ycontourvertex[0]; | |
5345 | ycontourvertex[4] = ycontourvertex[3]; | |
5346 | ycontourvertex[5] = -fgkEndCapCoverPlateSmallHoleRadius; | |
5347 | ycontourvertex[6] = ycontourvertex[5]; | |
5348 | ycontourvertex[7] = (kendcapcoverplatesmallholenumber[1]-1) | |
5349 | * fgkEndCapCoverPlateSmallHoleSeparation[2] | |
5350 | + fgkEndCapCoverPlateSmallHoleRadius; | |
5351 | ycontourvertex[8] = ycontourvertex[7]; | |
5352 | ycontourvertex[9] = ycontourvertex[0]; | |
5353 | ||
5354 | Double_t xboxin, dxboxin, yboxin, dyboxin; | |
5355 | Double_t xboxout, dxboxout, yboxout, dyboxout; | |
5356 | Double_t coordmin, coordmax; | |
5357 | coordmin = -fgkEndCapCoverPlateLength[0]; | |
5358 | coordmax = fgkEndCapCoverPlateLength[1]-xcontourvertex[0]; | |
5359 | xboxout = 0.5*(coordmin+coordmax); | |
5360 | dxboxout = 0.5*(coordmax-coordmin); | |
5361 | coordmin = -0.5*(fgkEndCapCoverPlateWidth[0]-fgkEndCapCoverPlateWidth[2] | |
5362 | - (kendcapcoverplatesmallholenumber[1]-1) | |
5363 | * fgkEndCapCoverPlateSmallHoleSeparation[2]); | |
5364 | coordmax = (kendcapcoverplatesmallholenumber[1]-1) | |
5365 | * fgkEndCapCoverPlateSmallHoleSeparation[2]-ycontourvertex[0]; | |
5366 | yboxout = 0.5*(coordmin+coordmax); | |
5367 | dyboxout = 0.5*(coordmax-coordmin); | |
5368 | coordmin = -fgkEndCapCoverPlateSmallHoleRadius; | |
5369 | coordmax = fgkEndCapCoverPlateLength[1]+fgkEndCapCoverPlateSmallHoleRadius; | |
5370 | xboxin = 0.5*(coordmin+coordmax); | |
5371 | dxboxin = 0.5*(coordmax-coordmin); | |
5372 | coordmin = -fgkEndCapCoverPlateSmallHoleRadius; | |
5373 | coordmax = (kendcapcoverplatesmallholenumber[1]-1) | |
5374 | * fgkEndCapCoverPlateSmallHoleSeparation[2] | |
5375 | + fgkEndCapCoverPlateSmallHoleRadius; | |
5376 | yboxin = 0.5*(coordmin+coordmax); | |
5377 | dyboxin = 0.5*(coordmax-coordmin); | |
5378 | new TGeoBBox("EndCapCoverPlateContourBoxOut", dxboxout, dyboxout, 0.5*fgkEndCapCoverPlateThickness); | |
5379 | TGeoTranslation *trendCapCoverPlateContourboxout = new TGeoTranslation("SSD_trEndCapCoverPlateContourBoxOut", | |
5380 | xboxout, yboxout, 0.); | |
5381 | trendCapCoverPlateContourboxout->RegisterYourself(); | |
5382 | new TGeoBBox("EndCapCoverPlateContourBoxIn", dxboxin, dyboxin, 0.5*fgkEndCapCoverPlateThickness+0.01); | |
5383 | TGeoTranslation *trendCapCoverPlateContourboxin = new TGeoTranslation("SSD_trEndCapCoverPlateContourBoxIn", | |
5384 | xboxin, yboxin, 0.); | |
5385 | trendCapCoverPlateContourboxin->RegisterYourself(); | |
5386 | TGeoCompositeShape *contourshape = new TGeoCompositeShape("contourShape", | |
5387 | "EndCapCoverPlateContourBoxOut:SSD_trEndCapCoverPlateContourBoxOut-EndCapCoverPlateContourBoxIn:SSD_trEndCapCoverPlateContourBoxIn"); | |
5388 | ||
5389 | TGeoVolume* contour = new TGeoVolume("EndCapCoverPlateContour",contourshape, | |
5390 | fSSDAlCoolBlockMedium); | |
5391 | contour->SetLineColor(6); | |
5392 | ///////////////////////////// | |
5393 | // Hole Contour Shape Definition | |
5394 | //////////////////////////// | |
5395 | coordmin = xcontourvertex[0]; | |
5396 | coordmax = coordmin+fgkEndCapCoverPlateLength[2]; | |
5397 | xboxout = 0.5*(coordmin+coordmax); | |
5398 | dxboxout = 0.5*(coordmax-coordmin); | |
5399 | coordmin = ycontourvertex[1]; | |
5400 | coordmax = ycontourvertex[1]+fgkEndCapCoverPlateWidth[2]; | |
5401 | yboxout = 0.5*(coordmin+coordmax); | |
5402 | dyboxout = 0.5*(coordmax-coordmin); | |
5403 | coordmin = xcontourvertex[0]+ 0.5*(fgkEndCapCoverPlateLength[2] | |
5404 | - 2.*fgkEndCapCoverPlateBigHoleRadius); | |
5405 | coordmax = coordmin + 2.*fgkEndCapCoverPlateBigHoleRadius; | |
5406 | xboxin = 0.5*(coordmin+coordmax); | |
5407 | dxboxin = 0.5*(coordmax-coordmin); | |
5408 | coordmin = ycontourvertex[1]+0.5*(fgkEndCapCoverPlateWidth[2] | |
5409 | - 2.*fgkEndCapCoverPlateBigHoleRadius);; | |
5410 | coordmax = coordmin +2.*fgkEndCapCoverPlateBigHoleRadius; | |
5411 | yboxin = 0.5*(coordmin+coordmax); | |
5412 | dyboxin = 0.5*(coordmax-coordmin); | |
5413 | new TGeoBBox("EndCapCoverPlateContourBoxOut1", dxboxout, dyboxout, 0.5*fgkEndCapCoverPlateThickness); | |
5414 | TGeoTranslation *trendCapCoverPlateContourboxout1 = new TGeoTranslation("SSD_trEndCapCoverPlateContourBoxOut1", | |
5415 | xboxout, yboxout, 0.); | |
5416 | trendCapCoverPlateContourboxout1->RegisterYourself(); | |
5417 | new TGeoBBox("EndCapCoverPlateContourBoxIn1", dxboxin, dyboxin, 0.5*fgkEndCapCoverPlateThickness+0.01); | |
5418 | TGeoTranslation *trendCapCoverPlateContourboxin1 = new TGeoTranslation("SSD_trEndCapCoverPlateContourBoxIn1", | |
5419 | xboxin, yboxin, 0.); | |
5420 | trendCapCoverPlateContourboxin1->RegisterYourself(); | |
5421 | TGeoCompositeShape *contourshape1 = new TGeoCompositeShape("contourShape1", | |
5422 | "EndCapCoverPlateContourBoxOut1:SSD_trEndCapCoverPlateContourBoxOut1-EndCapCoverPlateContourBoxIn1:SSD_trEndCapCoverPlateContourBoxIn1"); | |
5423 | ||
5424 | ||
5425 | coordmin = xcontourvertex[0]+fgkEndCapCoverPlateLength[5]; | |
5426 | coordmax = coordmin+fgkEndCapCoverPlateLength[2]; | |
5427 | xboxout = 0.5*(coordmin+coordmax); | |
5428 | dxboxout = 0.5*(coordmax-coordmin); | |
5429 | coordmin = ycontourvertex[0]-(fgkEndCapCoverPlateWidth[1] | |
5430 | - fgkEndCapCoverPlateWidth[0]); | |
5431 | coordmax = ycontourvertex[0]; | |
5432 | yboxout = 0.5*(coordmin+coordmax); | |
5433 | dyboxout = 0.5*(coordmax-coordmin); | |
5434 | coordmin = xcontourvertex[0]+fgkEndCapCoverPlateLength[5]+ 0.5*(fgkEndCapCoverPlateLength[2] | |
5435 | - 2.*fgkEndCapCoverPlateBigHoleRadius); | |
5436 | coordmax = coordmin + 2.*fgkEndCapCoverPlateBigHoleRadius; | |
5437 | xboxin = 0.5*(coordmin+coordmax); | |
5438 | dxboxin = 0.5*(coordmax-coordmin); | |
5439 | coordmin = ycontourvertex[0]-(fgkEndCapCoverPlateWidth[1] | |
5440 | - fgkEndCapCoverPlateWidth[0])+0.5*(fgkEndCapCoverPlateWidth[1] | |
5441 | - fgkEndCapCoverPlateWidth[0] | |
5442 | - 2.*fgkEndCapCoverPlateBigHoleRadius); | |
5443 | coordmax = coordmin+2.*fgkEndCapCoverPlateBigHoleRadius; | |
5444 | yboxin = 0.5*(coordmin+coordmax); | |
5445 | dyboxin = 0.5*(coordmax-coordmin); | |
5446 | new TGeoBBox("EndCapCoverPlateContourBoxOut2", dxboxout, dyboxout, 0.5*fgkEndCapCoverPlateThickness); | |
5447 | TGeoTranslation *trendCapCoverPlateContourboxout2 = new TGeoTranslation("SSD_trEndCapCoverPlateContourBoxOut2", | |
5448 | xboxout, yboxout, 0.); | |
5449 | trendCapCoverPlateContourboxout2->RegisterYourself(); | |
5450 | new TGeoBBox("EndCapCoverPlateContourBoxIn2", dxboxin, dyboxin, 0.5*fgkEndCapCoverPlateThickness+0.01); | |
5451 | TGeoTranslation *trendCapCoverPlateContourboxin2 = new TGeoTranslation("SSD_trEndCapCoverPlateContourBoxIn2", | |
5452 | xboxin, yboxin, 0.); | |
5453 | trendCapCoverPlateContourboxin2->RegisterYourself(); | |
5454 | TGeoCompositeShape *contourshape2 = new TGeoCompositeShape("contourShape2", | |
5455 | "EndCapCoverPlateContourBoxOut2:SSD_trEndCapCoverPlateContourBoxOut2-EndCapCoverPlateContourBoxIn2:SSD_trEndCapCoverPlateContourBoxIn2"); | |
5456 | ||
5457 | // const Int_t kholecontourvertexnumber = 10; | |
5458 | ||
5459 | Double_t xholecontourvertex[2][kcontourvertexnumber]; | |
5460 | Double_t yholecontourvertex[2][kcontourvertexnumber]; | |
5461 | xholecontourvertex[0][0] = xcontourvertex[0]; | |
5462 | xholecontourvertex[0][1] = xholecontourvertex[0][0]; | |
5463 | xholecontourvertex[0][2] = xholecontourvertex[0][1]+fgkEndCapCoverPlateLength[2]; | |
5464 | xholecontourvertex[0][3] = xholecontourvertex[0][2]; | |
5465 | xholecontourvertex[0][4] = xholecontourvertex[0][0] | |
5466 | + 0.5*(fgkEndCapCoverPlateLength[2] | |
5467 | - 2.*fgkEndCapCoverPlateBigHoleRadius); | |
5468 | xholecontourvertex[0][5] = xholecontourvertex[0][4]; | |
5469 | xholecontourvertex[0][6] = xholecontourvertex[0][5] | |
5470 | + 2.*fgkEndCapCoverPlateBigHoleRadius; | |
5471 | xholecontourvertex[0][7] = xholecontourvertex[0][6]; | |
5472 | xholecontourvertex[0][8] = xholecontourvertex[0][4]; | |
5473 | xholecontourvertex[0][9] = xholecontourvertex[0][8]; | |
5474 | ||
5475 | yholecontourvertex[0][0] = ycontourvertex[1]; | |
5476 | yholecontourvertex[0][1] = yholecontourvertex[0][0]+fgkEndCapCoverPlateWidth[2]; | |
5477 | yholecontourvertex[0][2] = yholecontourvertex[0][1]; | |
5478 | yholecontourvertex[0][3] = yholecontourvertex[0][0]; | |
5479 | yholecontourvertex[0][4] = yholecontourvertex[0][3]; | |
5480 | yholecontourvertex[0][5] = yholecontourvertex[0][4]+0.5*(fgkEndCapCoverPlateWidth[2] | |
5481 | - 2.*fgkEndCapCoverPlateBigHoleRadius); | |
5482 | yholecontourvertex[0][6] = yholecontourvertex[0][5]; | |
5483 | yholecontourvertex[0][7] = yholecontourvertex[0][6]+2.*fgkEndCapCoverPlateBigHoleRadius; | |
5484 | yholecontourvertex[0][8] = yholecontourvertex[0][7]; | |
5485 | yholecontourvertex[0][9] = yholecontourvertex[0][0]; | |
5486 | ||
5487 | xholecontourvertex[1][0] = xcontourvertex[0]+fgkEndCapCoverPlateLength[5]; | |
5488 | xholecontourvertex[1][1] = xholecontourvertex[1][0]; | |
5489 | xholecontourvertex[1][2] = xholecontourvertex[1][1]+fgkEndCapCoverPlateLength[2]; | |
5490 | xholecontourvertex[1][3] = xholecontourvertex[1][2]; | |
5491 | xholecontourvertex[1][4] = xholecontourvertex[1][0] | |
5492 | + 0.5*(fgkEndCapCoverPlateLength[2] | |
5493 | - 2.*fgkEndCapCoverPlateBigHoleRadius); | |
5494 | xholecontourvertex[1][5] = xholecontourvertex[1][4]; | |
5495 | xholecontourvertex[1][6] = xholecontourvertex[1][5] | |
5496 | + 2.*fgkEndCapCoverPlateBigHoleRadius; | |
5497 | xholecontourvertex[1][7] = xholecontourvertex[1][6]; | |
5498 | xholecontourvertex[1][8] = xholecontourvertex[1][4]; | |
5499 | xholecontourvertex[1][9] = xholecontourvertex[1][8]; | |
5500 | ||
5501 | yholecontourvertex[1][0] = ycontourvertex[0]-(fgkEndCapCoverPlateWidth[1] | |
5502 | - fgkEndCapCoverPlateWidth[0]); | |
5503 | yholecontourvertex[1][1] = ycontourvertex[0]; | |
5504 | yholecontourvertex[1][2] = yholecontourvertex[1][1]; | |
5505 | yholecontourvertex[1][3] = yholecontourvertex[1][0]; | |
5506 | yholecontourvertex[1][4] = yholecontourvertex[1][3]; | |
5507 | yholecontourvertex[1][5] = yholecontourvertex[1][4]+0.5*(fgkEndCapCoverPlateWidth[1] | |
5508 | - fgkEndCapCoverPlateWidth[0] | |
5509 | - 2.*fgkEndCapCoverPlateBigHoleRadius); | |
5510 | yholecontourvertex[1][6] = yholecontourvertex[1][5]; | |
5511 | yholecontourvertex[1][7] = yholecontourvertex[1][6]+2.*fgkEndCapCoverPlateBigHoleRadius; | |
5512 | yholecontourvertex[1][8] = yholecontourvertex[1][7]; | |
5513 | yholecontourvertex[1][9] = yholecontourvertex[1][0]; | |
5514 | ||
5515 | TGeoVolume* holecontour[2]; | |
5516 | holecontour[0] = new TGeoVolume("EndCapCoverPlateContour1",contourshape1, | |
5517 | fSSDAlCoolBlockMedium); | |
5518 | holecontour[0]->SetLineColor(6); | |
5519 | holecontour[1] = new TGeoVolume("EndCapCoverPlateContour2",contourshape2, | |
5520 | fSSDAlCoolBlockMedium); | |
5521 | holecontour[1]->SetLineColor(6); | |
5522 | TGeoTranslation* holecontourtrans = new TGeoTranslation(fgkEndCapCoverPlateLength[3] | |
5523 | + fgkEndCapCoverPlateLength[2],0.,0.); | |
5524 | TGeoTranslation* bigholetrans[3]; | |
5525 | bigholetrans[0] = new TGeoTranslation(xholecontourvertex[0][4]+fgkEndCapCoverPlateBigHoleRadius, | |
5526 | yholecontourvertex[0][7]-fgkEndCapCoverPlateBigHoleRadius,0.0); | |
5527 | bigholetrans[1] = new TGeoTranslation(xholecontourvertex[0][4]+fgkEndCapCoverPlateBigHoleRadius | |
5528 | + fgkEndCapCoverPlateLength[4],yholecontourvertex[0][7] | |
5529 | - fgkEndCapCoverPlateBigHoleRadius,0.0); | |
5530 | bigholetrans[2] = new TGeoTranslation(xholecontourvertex[1][4]+fgkEndCapCoverPlateBigHoleRadius, | |
5531 | yholecontourvertex[1][5]+fgkEndCapCoverPlateBigHoleRadius,0.0); | |
5532 | ///////////////////////////////// | |
5533 | // Mother Volume Xtru Definition | |
5534 | ///////////////////////////////// | |
5535 | const Int_t kmothervertexnumber = 12; | |
5536 | Double_t xmothervertex[kmothervertexnumber]; | |
5537 | Double_t ymothervertex[kmothervertexnumber]; | |
5538 | xmothervertex[0] = xcontourvertex[0]; | |
5539 | xmothervertex[1] = xmothervertex[0]; | |
5540 | xmothervertex[2] = xmothervertex[1]+fgkEndCapCoverPlateLength[2]; | |
5541 | xmothervertex[3] = xmothervertex[2]; | |
5542 | xmothervertex[4] = xmothervertex[3]+fgkEndCapCoverPlateLength[3]; | |
5543 | xmothervertex[5] = xmothervertex[4]; | |
5544 | xmothervertex[6] = xmothervertex[5]+fgkEndCapCoverPlateLength[2]; | |
5545 | xmothervertex[7] = xmothervertex[6]; | |
5546 | xmothervertex[8] = xmothervertex[0]+fgkEndCapCoverPlateLength[5] | |
5547 | + fgkEndCapCoverPlateLength[2]; | |
5548 | xmothervertex[9] = xmothervertex[8]; | |
5549 | xmothervertex[10] = xmothervertex[9]-fgkEndCapCoverPlateLength[2]; | |
5550 | xmothervertex[11] = xmothervertex[10]; | |
5551 | ||
5552 | ymothervertex[0] = ycontourvertex[0]; | |
5553 | ymothervertex[1] = ymothervertex[0]+fgkEndCapCoverPlateWidth[0]; | |
5554 | ymothervertex[2] = ymothervertex[1]; | |
5555 | ymothervertex[3] = ycontourvertex[1]; | |
5556 | ymothervertex[4] = ymothervertex[3]; | |
5557 | ymothervertex[5] = ymothervertex[1]; | |
5558 | ymothervertex[6] = ymothervertex[5]; | |
5559 | ymothervertex[7] = ymothervertex[0]; | |
5560 | ymothervertex[8] = ymothervertex[7]; | |
5561 | ymothervertex[9] = ymothervertex[8] | |
5562 | - (fgkEndCapCoverPlateWidth[1]-fgkEndCapCoverPlateWidth[0]); | |
5563 | ymothervertex[10] = ymothervertex[9]; | |
5564 | ymothervertex[11] = ymothervertex[8]; | |
5565 | TGeoXtru* mothercoverplateshape = new TGeoXtru(2); | |
5566 | mothercoverplateshape->DefinePolygon(kmothervertexnumber,xmothervertex,ymothervertex); | |
5567 | mothercoverplateshape->DefineSection(0,-0.5*fgkEndCapCoverPlateThickness); | |
5568 | mothercoverplateshape->DefineSection(1,+0.5*fgkEndCapCoverPlateThickness); | |
5569 | TGeoVolume* mothercoverplate = new TGeoVolume("EndCapCoverPlateMother",mothercoverplateshape,fSSDAir); | |
5570 | //////////////////////////////////////// | |
5571 | // Adding Nodes | |
5572 | //////////////////////////////////////// | |
5573 | // TGeoTranslation** endcapcoverplatesmallholetrans[kendcapcoverplatesmallholenumber[0]]; | |
5574 | TGeoTranslation*** endcapcoverplatesmallholetrans; | |
5575 | endcapcoverplatesmallholetrans = new TGeoTranslation**[kendcapcoverplatesmallholenumber[0]]; | |
5576 | Double_t transx[4] = {0, | |
5577 | fgkEndCapCoverPlateSmallHoleSeparation[0], | |
5578 | fgkEndCapCoverPlateSmallHoleSeparation[0] | |
5579 | + fgkEndCapCoverPlateSmallHoleSeparation[1], | |
5580 | 2.*fgkEndCapCoverPlateSmallHoleSeparation[0] | |
5581 | + fgkEndCapCoverPlateSmallHoleSeparation[1]}; | |
5582 | Int_t index = 0; | |
5583 | for(Int_t i=0; i<kendcapcoverplatesmallholenumber[0]; i++){ | |
5584 | endcapcoverplatesmallholetrans[i] = | |
5585 | new TGeoTranslation*[kendcapcoverplatesmallholenumber[1]]; | |
5586 | for(Int_t j=0; j<kendcapcoverplatesmallholenumber[1]; j++){ | |
5587 | index = kendcapcoverplatesmallholenumber[1]*i+j+1; | |
5588 | endcapcoverplatesmallholetrans[i][j] = | |
5589 | new TGeoTranslation(transx[i], | |
5590 | j*fgkEndCapCoverPlateSmallHoleSeparation[2],0.); | |
5591 | if(index!=10){ | |
5592 | mothercoverplate->AddNode(endcapcoverplatesmallhole, | |
5593 | index,endcapcoverplatesmallholetrans[i][j]); | |
5594 | mothercoverplate->AddNode(endcapsmallscrewpiece, | |
5595 | index,endcapcoverplatesmallholetrans[i][j]); | |
5596 | } | |
5597 | if(j<kendcapcoverplatesmallholenumber[1]-1) | |
5598 | mothercoverplate->AddNode(endcapcoverplatebox[0], | |
5599 | index,endcapcoverplatesmallholetrans[i][j]); | |
5600 | } | |
5601 | } | |
5602 | mothercoverplate->AddNode(endcapcoverplatebox[1],1); | |
5603 | mothercoverplate->AddNode(endcapcoverplatebox[2],1); | |
5604 | mothercoverplate->AddNode(endcapcoverplatebox[3],1); | |
5605 | mothercoverplate->AddNode(endcapfillingbox,1); | |
5606 | mothercoverplate->AddNode(endcapcoverplatebighole,1,bigholetrans[0]); | |
5607 | mothercoverplate->AddNode(endcapcoverplatebighole,2,bigholetrans[1]); | |
5608 | mothercoverplate->AddNode(endcapcoverplatebighole,3,bigholetrans[2]); | |
5609 | mothercoverplate->AddNode(holecontour[0],1); | |
5610 | mothercoverplate->AddNode(holecontour[0],2,holecontourtrans); | |
5611 | mothercoverplate->AddNode(holecontour[1],1); | |
5612 | mothercoverplate->AddNode(contour,1); | |
5613 | ///////////////////////////////// | |
5614 | return mothercoverplate; | |
5615 | } | |
5616 | //////////////////////////////////////////////////////////////////////////////// | |
5617 | TGeoVolume* AliITSv11GeometrySSD::GetEndCapCoolingTube(){ | |
5618 | ///////////////////////////////////////////////////////////// | |
5619 | // Getting EndCap Cooling Tube | |
5620 | ///////////////////////////////////////////////////////////// | |
5621 | TGeoTorus* endcapcoolingtubetorushape[5]; | |
5622 | TGeoVolume* endcapcoolingtubetorus[5]; | |
5623 | TGeoTube* endcapcoolingtubeshape[4]; | |
5624 | TGeoVolume* endcapcoolingtube[4]; | |
5625 | char endcapcoolingtubetorusname[100]; | |
5626 | char endcapcoolingtubename[100]; | |
5627 | TGeoTorus* endcapcoolingwatertubetorushape[5]; | |
5628 | TGeoVolume* endcapcoolingwatertubetorus[5]; | |
5629 | TGeoTube* endcapcoolingwatertubeshape[4]; | |
5630 | TGeoVolume* endcapcoolingwatertube[4]; | |
5631 | char endcapcoolingwatertubetorusname[100]; | |
5632 | char endcapcoolingwatertubename[100]; | |
5633 | for(Int_t i=0; i<5; i++){ | |
5634 | sprintf(endcapcoolingtubetorusname,"EndCapCoolingTubeTorus%d",i+1); | |
5635 | sprintf(endcapcoolingtubename,"EndCapCoolingTube%d",i+1); | |
5636 | sprintf(endcapcoolingwatertubetorusname,"EndCapCoolingWaterTubeTorus%d",i+1); | |
5637 | sprintf(endcapcoolingwatertubename,"EndCapCoolingWaterTube%d",i+1); | |
5638 | if(i==3){ | |
5639 | endcapcoolingtubetorushape[i] = new TGeoTorus(fgkEndCapCoolingTubeAxialRadius[0], | |
5640 | fgkEndCapCoolingTubeRadiusMin, | |
5641 | fgkEndCapCoolingTubeRadiusMax, | |
5642 | 90.0,fgkEndCapCoolingTubeAngle[3]); | |
5643 | endcapcoolingwatertubetorushape[i] = new TGeoTorus(fgkEndCapCoolingTubeAxialRadius[0], | |
5644 | 0.,fgkEndCapCoolingTubeRadiusMin, | |
5645 | 90.0,fgkEndCapCoolingTubeAngle[3]); | |
5646 | } | |
5647 | else{ | |
5648 | endcapcoolingtubetorushape[i] = new TGeoTorus(i!=4?fgkEndCapCoolingTubeAxialRadius[0] | |
5649 | :fgkEndCapCoolingTubeAxialRadius[1], | |
5650 | fgkEndCapCoolingTubeRadiusMin, | |
5651 | fgkEndCapCoolingTubeRadiusMax, | |
5652 | 0.,fgkEndCapCoolingTubeAngle[i]); | |
5653 | endcapcoolingwatertubetorushape[i] = new TGeoTorus(i!=4?fgkEndCapCoolingTubeAxialRadius[0] | |
5654 | :fgkEndCapCoolingTubeAxialRadius[1], | |
5655 | 0.,fgkEndCapCoolingTubeRadiusMin, | |
5656 | 0.,fgkEndCapCoolingTubeAngle[i]); | |
5657 | } | |
5658 | endcapcoolingtubetorus[i] = new TGeoVolume(endcapcoolingtubetorusname, | |
5659 | endcapcoolingtubetorushape[i], | |
5660 | fSSDCoolingTubePhynox); | |
5661 | endcapcoolingwatertubetorus[i] = new TGeoVolume(endcapcoolingwatertubetorusname, | |
5662 | endcapcoolingwatertubetorushape[i], | |
5663 | fSSDCoolingTubeWater); | |
5664 | endcapcoolingtubetorus[i]->SetLineColor(fColorPhynox); | |
5665 | endcapcoolingwatertubetorus[i]->SetLineColor(fColorWater); | |
5666 | if(i<4){ | |
5667 | endcapcoolingtubeshape[i] = new TGeoTube(fgkEndCapCoolingTubeRadiusMin, | |
5668 | fgkEndCapCoolingTubeRadiusMax, | |
5669 | 0.5*fgkEndCapCoolingTubeLength[i]); | |
5670 | endcapcoolingwatertubeshape[i] = new TGeoTube(0.,fgkEndCapCoolingTubeRadiusMin, | |
5671 | 0.5*fgkEndCapCoolingTubeLength[i]); | |
5672 | endcapcoolingtube[i] = new TGeoVolume(endcapcoolingtubename, | |
5673 | endcapcoolingtubeshape[i],fSSDCoolingTubePhynox); | |
5674 | endcapcoolingwatertube[i] = new TGeoVolume(endcapcoolingwatertubename, | |
5675 | endcapcoolingwatertubeshape[i],fSSDCoolingTubeWater); | |
5676 | endcapcoolingtube[i]->SetLineColor(fColorPhynox); | |
5677 | endcapcoolingwatertube[i]->SetLineColor(fColorWater); | |
5678 | } | |
5679 | } | |
5680 | TGeoVolumeAssembly* endcapcoolingtubemother = new TGeoVolumeAssembly("MotherEndCapCoolingTube"); | |
5681 | ///////////////////////////////////////// | |
5682 | // Transformation for Volume Positioning | |
5683 | ///////////////////////////////////////// | |
5684 | TGeoCombiTrans* coolingtubecombitrans[6]; | |
5685 | TGeoRotation* coolingtuberot[8]; | |
5686 | TGeoTranslation* coolingtubetrans[6]; | |
5687 | TGeoHMatrix* coolingtubematrix[4]; | |
5688 | TGeoCombiTrans* torustubecombitrans[4]; | |
5689 | TGeoRotation* torustuberot[7]; | |
5690 | TGeoTranslation* torustubetrans[4]; | |
5691 | TGeoHMatrix* torustubematrix[5]; | |
5692 | TGeoCombiTrans* coolingwatertubecombitrans[6]; | |
5693 | TGeoRotation* coolingwatertuberot[8]; | |
5694 | TGeoTranslation* coolingwatertubetrans[6]; | |
5695 | TGeoHMatrix* coolingwatertubematrix[4]; | |
5696 | TGeoCombiTrans* toruswatertubecombitrans[4]; | |
5697 | TGeoRotation* toruswatertuberot[7]; | |
5698 | TGeoTranslation* toruswatertubetrans[4]; | |
5699 | TGeoHMatrix* toruswatertubematrix[5]; | |
5700 | for(Int_t i=0; i<8; i++){ | |
5701 | if(i<6){ | |
5702 | coolingtubetrans[i] = new TGeoTranslation(); | |
5703 | coolingwatertubetrans[i] = new TGeoTranslation(); | |
5704 | } | |
5705 | if(i<8){ | |
5706 | coolingtuberot[i] = new TGeoRotation(); | |
5707 | coolingwatertuberot[i] = new TGeoRotation(); | |
5708 | } | |
5709 | if(i<4){ | |
5710 | torustubetrans[i] = new TGeoTranslation(); | |
5711 | toruswatertubetrans[i] = new TGeoTranslation(); | |
5712 | } | |
5713 | if(i<7){ | |
5714 | torustuberot[i] = new TGeoRotation(); | |
5715 | toruswatertuberot[i] = new TGeoRotation(); | |
5716 | } | |
5717 | } | |
5718 | ///////////////////////////////////////// | |
5719 | // Transformation for Inox Volume Positioning | |
5720 | ///////////////////////////////////////// | |
5721 | coolingtubetrans[0]->SetTranslation(fgkEndCapCoolingTubeAxialRadius[0], | |
5722 | -endcapcoolingtubeshape[0]->GetDz(),0.); | |
5723 | coolingtuberot[0]->SetAngles(0.,90.,0.); | |
5724 | coolingtubecombitrans[0] = new TGeoCombiTrans(*coolingtubetrans[0], | |
5725 | *coolingtuberot[0]); | |
5726 | ||
5727 | coolingtubetrans[1]->SetTranslation(0.,-endcapcoolingtubeshape[1]->GetDz(),0.); | |
5728 | coolingtuberot[1]->SetAngles(0.,90.,0.); | |
5729 | coolingtubecombitrans[1] = new TGeoCombiTrans(*coolingtubetrans[1], | |
5730 | *coolingtuberot[1]); | |
5731 | ||
5732 | coolingtubetrans[2]->SetTranslation(fgkEndCapCoolingTubeAxialRadius[0] | |
5733 | *CosD(fgkEndCapCoolingTubeAngle[0]), | |
5734 | fgkEndCapCoolingTubeAxialRadius[0] | |
5735 | *SinD(fgkEndCapCoolingTubeAngle[0]), | |
5736 | 0.); | |
5737 | coolingtuberot[2]->SetAngles(fgkEndCapCoolingTubeAngle[0]-180.,0.,0.); | |
5738 | coolingtubecombitrans[2] = new TGeoCombiTrans(*coolingtubetrans[2], | |
5739 | *coolingtuberot[2]); | |
5740 | ||
5741 | coolingtubematrix[0] = new TGeoHMatrix((*coolingtubecombitrans[2]) | |
5742 | * (*coolingtubecombitrans[1])); | |
5743 | ||
5744 | torustubetrans[0]->SetTranslation(-fgkEndCapCoolingTubeAxialRadius[0],0., | |
5745 | endcapcoolingtubeshape[1]->GetDz()); | |
5746 | torustuberot[0]->SetAngles(0.,90.,0.); | |
5747 | torustubecombitrans[0] = new TGeoCombiTrans(*torustubetrans[0],*torustuberot[0]); | |
5748 | ||
5749 | torustubematrix[0] = new TGeoHMatrix((*coolingtubematrix[0])*(*torustubecombitrans[0])); | |
5750 | ||
5751 | coolingtubetrans[3]->SetTranslation(-fgkEndCapCoolingTubeAxialRadius[0], | |
5752 | -endcapcoolingtubeshape[2]->GetDz(),0.); | |
5753 | coolingtuberot[3]->SetAngles(0.,90.,0.); | |
5754 | coolingtubecombitrans[3] = new TGeoCombiTrans(*coolingtubetrans[3], | |
5755 | *coolingtuberot[3]); | |
5756 | coolingtuberot[4]->SetAngles(-180.+fgkEndCapCoolingTubeAngle[1],0.,0.); | |
5757 | coolingtubematrix[1] = new TGeoHMatrix((*coolingtuberot[4])*(*coolingtubecombitrans[3])); | |
5758 | coolingtubematrix[1]->MultiplyLeft(torustubematrix[0]); | |
5759 | ||
5760 | torustubetrans[1]->SetTranslation(-fgkEndCapCoolingTubeAxialRadius[0],0., | |
5761 | endcapcoolingtubeshape[2]->GetDz()); | |
5762 | torustuberot[1]->SetAngles(0.,90.,0.); | |
5763 | torustubecombitrans[1] = new TGeoCombiTrans(*torustubetrans[1],*torustuberot[1]); | |
5764 | torustuberot[2]->SetAngles(180.,0.,0.); | |
5765 | torustubematrix[2] = new TGeoHMatrix((*torustuberot[2])*(*torustubecombitrans[1])); | |
5766 | torustubematrix[2]->MultiplyLeft(coolingtubematrix[1]); | |
5767 | ||
5768 | torustubetrans[2]->SetTranslation(0.,fgkEndCapCoolingTubeAxialRadius[0], | |
5769 | -fgkEndCapCoolingTubeAxialRadius[0]); | |
5770 | torustuberot[3]->SetAngles(0.,90.,0.); | |
5771 | torustubecombitrans[2] = new TGeoCombiTrans(*torustubetrans[2],*torustuberot[3]); | |
5772 | torustuberot[4]->SetAngles(fgkEndCapCoolingTubeAngle[2]-90.,0.,0.); | |
5773 | torustubematrix[3] = new TGeoHMatrix((*torustuberot[4])*(*torustubecombitrans[2])); | |
5774 | torustubematrix[3]->MultiplyLeft(torustubematrix[2]); | |
5775 | ||
5776 | coolingtubetrans[4]->SetTranslation(-endcapcoolingtubeshape[3]->GetDz(), | |
5777 | fgkEndCapCoolingTubeAxialRadius[0],0.); | |
5778 | coolingtuberot[5]->SetAngles(90.,90.,-90.); | |
5779 | coolingtubecombitrans[4] = new TGeoCombiTrans(*coolingtubetrans[4], | |
5780 | *coolingtuberot[5]); | |
5781 | coolingtuberot[6]->SetAngles(fgkEndCapCoolingTubeAngle[3],0.,0.); | |
5782 | coolingtubematrix[2] = new TGeoHMatrix((*coolingtuberot[6])*(*coolingtubecombitrans[4])); | |
5783 | coolingtubematrix[2]->MultiplyLeft(torustubematrix[3]); | |
5784 | ||
5785 | torustubetrans[3]->SetTranslation(-fgkEndCapCoolingTubeAxialRadius[1],0., | |
5786 | endcapcoolingtubeshape[0]->GetDz()); | |
5787 | torustuberot[5]->SetAngles(0.,90.,0.); | |
5788 | torustubecombitrans[3] = new TGeoCombiTrans(*torustubetrans[3],*torustuberot[5]); | |
5789 | torustuberot[6]->SetAngles(-90.,0.,0.); | |
5790 | torustubematrix[4] = new TGeoHMatrix((*torustuberot[6])*(*torustubecombitrans[3])); | |
5791 | torustubematrix[4]->MultiplyLeft(coolingtubecombitrans[0]); | |
5792 | ||
5793 | coolingtubetrans[5]->SetTranslation(fgkEndCapCoolingTubeAxialRadius[1], | |
5794 | endcapcoolingtubeshape[3]->GetDz(),0.); | |
5795 | coolingtuberot[6]->SetAngles(0.,90.,0.); | |
5796 | coolingtubecombitrans[5] = new TGeoCombiTrans(*coolingtubetrans[5], | |
5797 | *coolingtuberot[6]); | |
5798 | coolingtuberot[7]->SetAngles(fgkEndCapCoolingTubeAngle[4],0.,0.); | |
5799 | coolingtubematrix[3] = new TGeoHMatrix((*coolingtuberot[7])*(*coolingtubecombitrans[5])); | |
5800 | coolingtubematrix[3]->MultiplyLeft(torustubematrix[4]); | |
5801 | ///////////////////////////////////////// | |
5802 | // Transformation for Water Volume Positioning | |
5803 | ///////////////////////////////////////// | |
5804 | coolingwatertubetrans[0]->SetTranslation(fgkEndCapCoolingTubeAxialRadius[0], | |
5805 | -endcapcoolingwatertubeshape[0]->GetDz(),0.); | |
5806 | coolingwatertuberot[0]->SetAngles(0.,90.,0.); | |
5807 | coolingwatertubecombitrans[0] = new TGeoCombiTrans(*coolingwatertubetrans[0], | |
5808 | *coolingwatertuberot[0]); | |
5809 | ||
5810 | coolingwatertubetrans[1]->SetTranslation(0.,-endcapcoolingwatertubeshape[1]->GetDz(),0.); | |
5811 | coolingwatertuberot[1]->SetAngles(0.,90.,0.); | |
5812 | coolingwatertubecombitrans[1] = new TGeoCombiTrans(*coolingwatertubetrans[1], | |
5813 | *coolingwatertuberot[1]); | |
5814 | ||
5815 | coolingwatertubetrans[2]->SetTranslation(fgkEndCapCoolingTubeAxialRadius[0] | |
5816 | *CosD(fgkEndCapCoolingTubeAngle[0]), | |
5817 | fgkEndCapCoolingTubeAxialRadius[0] | |
5818 | *SinD(fgkEndCapCoolingTubeAngle[0]), | |
5819 | 0.); | |
5820 | coolingwatertuberot[2]->SetAngles(fgkEndCapCoolingTubeAngle[0]-180.,0.,0.); | |
5821 | coolingwatertubecombitrans[2] = new TGeoCombiTrans(*coolingwatertubetrans[2], | |
5822 | *coolingwatertuberot[2]); | |
5823 | ||
5824 | coolingwatertubematrix[0] = new TGeoHMatrix((*coolingwatertubecombitrans[2]) | |
5825 | * (*coolingwatertubecombitrans[1])); | |
5826 | ||
5827 | toruswatertubetrans[0]->SetTranslation(-fgkEndCapCoolingTubeAxialRadius[0],0., | |
5828 | endcapcoolingwatertubeshape[1]->GetDz()); | |
5829 | toruswatertuberot[0]->SetAngles(0.,90.,0.); | |
5830 | toruswatertubecombitrans[0] = new TGeoCombiTrans(*toruswatertubetrans[0], | |
5831 | *toruswatertuberot[0]); | |
5832 | ||
5833 | toruswatertubematrix[0] = new TGeoHMatrix((*coolingwatertubematrix[0]) | |
5834 | * (*toruswatertubecombitrans[0])); | |
5835 | ||
5836 | coolingwatertubetrans[3]->SetTranslation(-fgkEndCapCoolingTubeAxialRadius[0], | |
5837 | -endcapcoolingwatertubeshape[2]->GetDz(),0.); | |
5838 | coolingwatertuberot[3]->SetAngles(0.,90.,0.); | |
5839 | coolingwatertubecombitrans[3] = new TGeoCombiTrans(*coolingwatertubetrans[3], | |
5840 | *coolingwatertuberot[3]); | |
5841 | coolingwatertuberot[4]->SetAngles(-180.+fgkEndCapCoolingTubeAngle[1],0.,0.); | |
5842 | coolingwatertubematrix[1] = new TGeoHMatrix((*coolingwatertuberot[4]) | |
5843 | * (*coolingwatertubecombitrans[3])); | |
5844 | coolingwatertubematrix[1]->MultiplyLeft(toruswatertubematrix[0]); | |
5845 | ||
5846 | toruswatertubetrans[1]->SetTranslation(-fgkEndCapCoolingTubeAxialRadius[0],0., | |
5847 | endcapcoolingwatertubeshape[2]->GetDz()); | |
5848 | toruswatertuberot[1]->SetAngles(0.,90.,0.); | |
5849 | toruswatertubecombitrans[1] = new TGeoCombiTrans(*toruswatertubetrans[1], | |
5850 | *toruswatertuberot[1]); | |
5851 | toruswatertuberot[2]->SetAngles(180.,0.,0.); | |
5852 | toruswatertubematrix[2] = new TGeoHMatrix((*toruswatertuberot[2]) | |
5853 | * (*toruswatertubecombitrans[1])); | |
5854 | toruswatertubematrix[2]->MultiplyLeft(coolingwatertubematrix[1]); | |
5855 | ||
5856 | toruswatertubetrans[2]->SetTranslation(0.,fgkEndCapCoolingTubeAxialRadius[0], | |
5857 | -fgkEndCapCoolingTubeAxialRadius[0]); | |
5858 | toruswatertuberot[3]->SetAngles(0.,90.,0.); | |
5859 | toruswatertubecombitrans[2] = new TGeoCombiTrans(*toruswatertubetrans[2], | |
5860 | *toruswatertuberot[3]); | |
5861 | toruswatertuberot[4]->SetAngles(fgkEndCapCoolingTubeAngle[2]-90.,0.,0.); | |
5862 | toruswatertubematrix[3] = new TGeoHMatrix((*toruswatertuberot[4]) | |
5863 | * (*toruswatertubecombitrans[2])); | |
5864 | toruswatertubematrix[3]->MultiplyLeft(toruswatertubematrix[2]); | |
5865 | ||
5866 | coolingwatertubetrans[4]->SetTranslation(-endcapcoolingwatertubeshape[3]->GetDz(), | |
5867 | fgkEndCapCoolingTubeAxialRadius[0],0.); | |
5868 | coolingwatertuberot[5]->SetAngles(90.,90.,-90.); | |
5869 | coolingwatertubecombitrans[4] = new TGeoCombiTrans(*coolingwatertubetrans[4], | |
5870 | *coolingwatertuberot[5]); | |
5871 | coolingwatertuberot[6]->SetAngles(fgkEndCapCoolingTubeAngle[3],0.,0.); | |
5872 | coolingwatertubematrix[2] = new TGeoHMatrix((*coolingwatertuberot[6]) | |
5873 | * (*coolingwatertubecombitrans[4])); | |
5874 | coolingwatertubematrix[2]->MultiplyLeft(toruswatertubematrix[3]); | |
5875 | ||
5876 | toruswatertubetrans[3]->SetTranslation(-fgkEndCapCoolingTubeAxialRadius[1],0., | |
5877 | endcapcoolingwatertubeshape[0]->GetDz()); | |
5878 | toruswatertuberot[5]->SetAngles(0.,90.,0.); | |
5879 | toruswatertubecombitrans[3] = new TGeoCombiTrans(*toruswatertubetrans[3], | |
5880 | *toruswatertuberot[5]); | |
5881 | toruswatertuberot[6]->SetAngles(-90.,0.,0.); | |
5882 | toruswatertubematrix[4] = new TGeoHMatrix((*toruswatertuberot[6]) | |
5883 | * (*toruswatertubecombitrans[3])); | |
5884 | toruswatertubematrix[4]->MultiplyLeft(coolingwatertubecombitrans[0]); | |
5885 | ||
5886 | coolingwatertubetrans[5]->SetTranslation(fgkEndCapCoolingTubeAxialRadius[1], | |
5887 | endcapcoolingwatertubeshape[3]->GetDz(),0.); | |
5888 | coolingwatertuberot[6]->SetAngles(0.,90.,0.); | |
5889 | coolingwatertubecombitrans[5] = new TGeoCombiTrans(*coolingwatertubetrans[5], | |
5890 | *coolingwatertuberot[6]); | |
5891 | coolingwatertuberot[7]->SetAngles(fgkEndCapCoolingTubeAngle[4],0.,0.); | |
5892 | coolingwatertubematrix[3] = new TGeoHMatrix((*coolingwatertuberot[7]) | |
5893 | * (*coolingwatertubecombitrans[5])); | |
5894 | coolingwatertubematrix[3]->MultiplyLeft(toruswatertubematrix[4]); | |
5895 | ///////////////////////////////////////// | |
5896 | // Positioning Volumes | |
5897 | ///////////////////////////////////////// | |
5898 | endcapcoolingtubemother->AddNode(endcapcoolingtubetorus[0],1); | |
5899 | endcapcoolingtubemother->AddNode(endcapcoolingwatertubetorus[0],1); | |
5900 | ||
5901 | endcapcoolingtubemother->AddNode(endcapcoolingtube[0],1,coolingtubecombitrans[0]); | |
5902 | endcapcoolingtubemother->AddNode(endcapcoolingwatertube[0],1,coolingwatertubecombitrans[0]); | |
5903 | ||
5904 | endcapcoolingtubemother->AddNode(endcapcoolingtube[1],1,coolingtubematrix[0]); | |
5905 | endcapcoolingtubemother->AddNode(endcapcoolingwatertube[1],1,coolingwatertubematrix[0]); | |
5906 | ||
5907 | endcapcoolingtubemother->AddNode(endcapcoolingtubetorus[1],1,torustubematrix[0]); | |
5908 | endcapcoolingtubemother->AddNode(endcapcoolingwatertubetorus[1],1,toruswatertubematrix[0]); | |
5909 | ||
5910 | endcapcoolingtubemother->AddNode(endcapcoolingtube[2],1,coolingtubematrix[1]); | |
5911 | endcapcoolingtubemother->AddNode(endcapcoolingwatertube[2],1,coolingwatertubematrix[1]); | |
5912 | ||
5913 | endcapcoolingtubemother->AddNode(endcapcoolingtubetorus[2],1,torustubematrix[2]); | |
5914 | endcapcoolingtubemother->AddNode(endcapcoolingwatertubetorus[2],1,toruswatertubematrix[2]); | |
5915 | ||
5916 | endcapcoolingtubemother->AddNode(endcapcoolingtubetorus[3],1,torustubematrix[3]); | |
5917 | endcapcoolingtubemother->AddNode(endcapcoolingwatertubetorus[3],1,toruswatertubematrix[3]); | |
5918 | ||
5919 | endcapcoolingtubemother->AddNode(endcapcoolingtube[3],1,coolingtubematrix[2]); | |
5920 | endcapcoolingtubemother->AddNode(endcapcoolingwatertube[3],1,coolingwatertubematrix[2]); | |
5921 | ||
5922 | endcapcoolingtubemother->AddNode(endcapcoolingtubetorus[4],1,torustubematrix[4]); | |
5923 | endcapcoolingtubemother->AddNode(endcapcoolingwatertubetorus[4],1,toruswatertubematrix[4]); | |
5924 | ||
5925 | endcapcoolingtubemother->AddNode(endcapcoolingtube[3],2,coolingtubematrix[3]); | |
5926 | endcapcoolingtubemother->AddNode(endcapcoolingwatertube[3],2,coolingwatertubematrix[3]); | |
5927 | ///////////////////////////////////////////////////////////// | |
5928 | // Deallocating memory | |
5929 | ///////////////////////////////////////////////////////////// | |
5930 | for(Int_t i=0; i<8; i++){ | |
5931 | if(i<6){ | |
5932 | delete coolingtubetrans[i]; | |
5933 | delete coolingwatertubetrans[i]; | |
5934 | if(i!=0){ | |
5935 | delete coolingtubecombitrans[i]; | |
5936 | delete coolingwatertubecombitrans[i]; | |
5937 | } | |
5938 | } | |
5939 | if(i<8){ | |
5940 | delete coolingtuberot[i]; | |
5941 | delete coolingwatertuberot[i]; | |
5942 | } | |
5943 | if(i<4){ | |
5944 | delete torustubetrans[i]; | |
5945 | delete toruswatertubetrans[i]; | |
5946 | delete torustubecombitrans[i]; | |
5947 | delete toruswatertubecombitrans[i]; | |
5948 | } | |
5949 | if(i<7){ | |
5950 | delete torustuberot[i]; | |
5951 | delete toruswatertuberot[i]; | |
5952 | } | |
5953 | } | |
5954 | ///////////////////////////////////////////////////////////// | |
5955 | return endcapcoolingtubemother; | |
5956 | } | |
5957 | //////////////////////////////////////////////////////////////////////////////// | |
5958 | TGeoVolume* AliITSv11GeometrySSD::GetEndCapSideCover() const { | |
5959 | ///////////////////////////////////////////////////////////// | |
5960 | // Getting EndCap Cover Side | |
5961 | ///////////////////////////////////////////////////////////// | |
5962 | const Int_t kendcapcoverholenumber[2] = {7,5}; | |
5963 | const Int_t kvertexnumber = 15; | |
5964 | Double_t xvertex[kvertexnumber], yvertex[kvertexnumber]; | |
5965 | xvertex[0] = 0.0; | |
5966 | xvertex[1] = xvertex[0]; | |
5967 | xvertex[2] = fgkEndCapSideCoverLength[0]; | |
5968 | xvertex[3] = fgkEndCapSideCoverLength[1]; | |
5969 | xvertex[4] = xvertex[3]; | |
5970 | xvertex[5] = fgkEndCapSideCoverLength[2]; | |
5971 | xvertex[6] = xvertex[5]; | |
5972 | xvertex[7] = xvertex[2]; | |
5973 | xvertex[8] = xvertex[7]; | |
5974 | xvertex[9] = xvertex[6]-fgkEndCapSideCoverLength[0]; | |
5975 | xvertex[10] = xvertex[9]; | |
5976 | xvertex[11] = xvertex[5]-fgkEndCapSideCoverLength[0]-kendcapcoverholenumber[1] | |
5977 | * fgkEndCapSideCoverLength[3]-(kendcapcoverholenumber[1]-1) | |
5978 | * fgkEndCapSideCoverLength[4]; | |
5979 | xvertex[12] = xvertex[11]; | |
5980 | xvertex[13] = xvertex[5]-fgkEndCapSideCoverLength[0]-kendcapcoverholenumber[0] | |
5981 | * fgkEndCapSideCoverLength[3]-(kendcapcoverholenumber[0]-1) | |
5982 | * fgkEndCapSideCoverLength[4]; | |
5983 | xvertex[14] = xvertex[13]; | |
5984 | yvertex[0] = 0.0; | |
5985 | yvertex[1] = fgkEndCapSideCoverWidth[0]; | |
5986 | yvertex[2] = fgkEndCapSideCoverWidth[1]-fgkEndCapSideCoverWidth[2]; | |
5987 | yvertex[3] = yvertex[2]; | |
5988 | yvertex[4] = fgkEndCapSideCoverWidth[1]; | |
5989 | yvertex[5] = yvertex[4]; | |
5990 | yvertex[6] = yvertex[0]; | |
5991 | yvertex[7] = yvertex[6]; | |
5992 | yvertex[8] = fgkEndCapSideCoverWidth[6]; | |
5993 | yvertex[9] = yvertex[8]; | |
5994 | yvertex[10] = fgkEndCapSideCoverWidth[1]-fgkEndCapSideCoverWidth[3]; | |
5995 | yvertex[11] = yvertex[10]; | |
5996 | yvertex[12] = yvertex[9]+2.*fgkEndCapSideCoverWidth[5]+fgkEndCapSideCoverLength[4]; | |
5997 | yvertex[13] = yvertex[12]; | |
5998 | yvertex[14] = yvertex[6]; | |
5999 | TGeoXtru* endcapsidecovershapeout = new TGeoXtru(2); | |
6000 | endcapsidecovershapeout->SetName("endcapsidecovershapeout"); | |
6001 | endcapsidecovershapeout->DefinePolygon(7,xvertex,yvertex); | |
6002 | endcapsidecovershapeout->DefineSection(0,-0.5*fgkEndCapSideCoverThickness); | |
6003 | endcapsidecovershapeout->DefineSection(1,0.5*fgkEndCapSideCoverThickness); | |
6004 | TGeoXtru* endcapsidecovershapein = new TGeoXtru(2); | |
6005 | endcapsidecovershapein->SetName("endcapsidecovershapein"); | |
6006 | endcapsidecovershapein->DefinePolygon(6,&xvertex[8],&yvertex[8]); | |
6007 | endcapsidecovershapein->DefineSection(0,-0.5*fgkEndCapSideCoverThickness-0.01); | |
6008 | endcapsidecovershapein->DefineSection(1,0.5*fgkEndCapSideCoverThickness+0.01); | |
6009 | ||
6010 | ||
6011 | TGeoCompositeShape* endcapsidecovershape = new TGeoCompositeShape("endcapsidecovershape", "endcapsidecovershapeout-endcapsidecovershapein"); | |
6012 | TGeoVolume* endcapsidecover = new TGeoVolume("EndCapSideCover", | |
6013 | endcapsidecovershape,fSSDCoolingTubePhynox); | |
6014 | endcapsidecover->SetLineColor(fColorPhynox); | |
6015 | //////////////////////////////////////////// | |
6016 | // Defininition of Mother Volume | |
6017 | //////////////////////////////////////////// | |
6018 | const Int_t kmothervertexnumber = 7; | |
6019 | Double_t xmothervertex[kmothervertexnumber]; | |
6020 | Double_t ymothervertex[kmothervertexnumber]; | |
6021 | for(Int_t i=0; i<kmothervertexnumber; i++){ | |
6022 | xmothervertex[i] = xvertex[i]; | |
6023 | ymothervertex[i] = yvertex[i]; | |
6024 | } | |
6025 | TGeoXtru* endcapsidecovermothershape = new TGeoXtru(2); | |
6026 | endcapsidecovermothershape->DefinePolygon(kmothervertexnumber,xmothervertex,ymothervertex); | |
6027 | endcapsidecovermothershape->DefineSection(0,-0.5*fgkEndCapSideCoverThickness); | |
6028 | endcapsidecovermothershape->DefineSection(1,0.5*fgkEndCapSideCoverThickness); | |
6029 | TGeoVolume* endcapsidecovermother = new TGeoVolume("EndCapSideCoverMother", | |
6030 | endcapsidecovermothershape,fSSDAir); | |
6031 | //////////////////////////////////////////// | |
6032 | endcapsidecovermother->AddNode(endcapsidecover,1); | |
6033 | TGeoBBox* endcapsidecoverboxshape[4]; | |
6034 | endcapsidecoverboxshape[0] = new TGeoBBox(0.5*(kendcapcoverholenumber[0]*fgkEndCapSideCoverLength[3] | |
6035 | + (kendcapcoverholenumber[0]-1)*fgkEndCapSideCoverLength[4]), | |
6036 | 0.5*fgkEndCapSideCoverLength[4], | |
6037 | 0.5*fgkEndCapSideCoverThickness); | |
6038 | endcapsidecoverboxshape[1] = new TGeoBBox(0.5*(kendcapcoverholenumber[1]*fgkEndCapSideCoverLength[3] | |
6039 | + (kendcapcoverholenumber[1]-1)*fgkEndCapSideCoverLength[4]), | |
6040 | 0.5*(fgkEndCapSideCoverWidth[4]-2.*fgkEndCapSideCoverWidth[5] | |
6041 | - fgkEndCapSideCoverLength[4]), | |
6042 | 0.5*fgkEndCapSideCoverThickness); | |
6043 | endcapsidecoverboxshape[2] = new TGeoBBox(endcapsidecoverboxshape[1]->GetDX(), | |
6044 | 0.5*fgkEndCapSideCoverLength[4], | |
6045 | 0.5*fgkEndCapSideCoverThickness); | |
6046 | endcapsidecoverboxshape[3] = new TGeoBBox(0.5*fgkEndCapSideCoverLength[4], | |
6047 | 0.5*fgkEndCapSideCoverWidth[5], | |
6048 | 0.5*fgkEndCapSideCoverThickness); | |
6049 | TGeoVolume* endcapsidecoverbox[4]; | |
6050 | endcapsidecoverbox[0] = new TGeoVolume("EndCapSideCoverBox1",endcapsidecoverboxshape[0],fSSDCoolingTubePhynox); | |
6051 | endcapsidecoverbox[1] = new TGeoVolume("EndCapSideCoverBox2",endcapsidecoverboxshape[1],fSSDCoolingTubePhynox); | |
6052 | endcapsidecoverbox[2] = new TGeoVolume("EndCapSideCoverBox3",endcapsidecoverboxshape[2],fSSDCoolingTubePhynox); | |
6053 | endcapsidecoverbox[3] = new TGeoVolume("EndCapSideCoverBox4",endcapsidecoverboxshape[3],fSSDCoolingTubePhynox); | |
6054 | for(Int_t i=0; i<4; i++) endcapsidecoverbox[i]->SetLineColor(fColorPhynox); | |
6055 | // TGeoTranslation* endcapsidecoverboxtrans[3+2*(kendcapcoverholenumber[0]-1)+2*(kendcapcoverholenumber[1]-1)]; | |
6056 | TGeoTranslation** endcapsidecoverboxtrans; | |
6057 | endcapsidecoverboxtrans = new TGeoTranslation*[3+2*(kendcapcoverholenumber[0]-1)+2*(kendcapcoverholenumber[1]-1)]; | |
6058 | endcapsidecoverboxtrans[0] = new TGeoTranslation(endcapsidecoverboxshape[0]->GetDX() | |
6059 | + fgkEndCapSideCoverLength[0], | |
6060 | endcapsidecoverboxshape[0]->GetDY() | |
6061 | + yvertex[9]+fgkEndCapSideCoverWidth[5],0.); | |
6062 | endcapsidecoverboxtrans[1] = new TGeoTranslation(endcapsidecoverboxshape[1]->GetDX() | |
6063 | + xvertex[11], | |
6064 | endcapsidecoverboxshape[1]->GetDY() | |
6065 | + yvertex[12],0.); | |
6066 | endcapsidecoverboxtrans[2] = new TGeoTranslation(endcapsidecoverboxshape[2]->GetDX() | |
6067 | + xvertex[11], | |
6068 | endcapsidecoverboxshape[2]->GetDY() | |
6069 | + yvertex[12] | |
6070 | + 2.*endcapsidecoverboxshape[1]->GetDY() | |
6071 | + fgkEndCapSideCoverWidth[5],0.); | |
6072 | endcapsidecovermother->AddNode(endcapsidecoverbox[0],1,endcapsidecoverboxtrans[0]); | |
6073 | endcapsidecovermother->AddNode(endcapsidecoverbox[1],1,endcapsidecoverboxtrans[1]); | |
6074 | endcapsidecovermother->AddNode(endcapsidecoverbox[2],1,endcapsidecoverboxtrans[2]); | |
6075 | for(Int_t i=0; i<2; i++) | |
6076 | for(Int_t j=0; j<kendcapcoverholenumber[0]-1; j++){ | |
6077 | endcapsidecoverboxtrans[i*(kendcapcoverholenumber[0]-1)+j+3] = | |
6078 | new TGeoTranslation(endcapsidecoverboxshape[3]->GetDX()+fgkEndCapSideCoverLength[0] | |
6079 | +(j+1)*fgkEndCapSideCoverLength[3]+j*fgkEndCapSideCoverLength[4], | |
6080 | endcapsidecoverboxshape[3]->GetDY()+fgkEndCapSideCoverWidth[6] | |
6081 | +i*(fgkEndCapSideCoverWidth[5]+fgkEndCapSideCoverLength[4]),0.0); | |
6082 | endcapsidecovermother->AddNode(endcapsidecoverbox[3],i*(kendcapcoverholenumber[0]-1)+j+1, | |
6083 | endcapsidecoverboxtrans[i*(kendcapcoverholenumber[0]-1)+j+3]); | |
6084 | } | |
6085 | for(Int_t i=0; i<2; i++) | |
6086 | for(Int_t j=0; j<kendcapcoverholenumber[1]-1; j++){ | |
6087 | endcapsidecoverboxtrans[2*(kendcapcoverholenumber[0]-1)+3+i*(kendcapcoverholenumber[1]-1)+j] = | |
6088 | new TGeoTranslation(endcapsidecoverboxshape[3]->GetDX()+xvertex[12] | |
6089 | +(j+1)*fgkEndCapSideCoverLength[3]+j*fgkEndCapSideCoverLength[4], | |
6090 | endcapsidecoverboxshape[3]->GetDY()+fgkEndCapSideCoverWidth[6] | |
6091 | +fgkEndCapSideCoverWidth[4]+i*(fgkEndCapSideCoverWidth[5] | |
6092 | +fgkEndCapSideCoverLength[4]),0.0); | |
6093 | endcapsidecovermother->AddNode(endcapsidecoverbox[3], | |
6094 | 2*(kendcapcoverholenumber[0]-1)+3+i*(kendcapcoverholenumber[1]-1)+j, | |
6095 | endcapsidecoverboxtrans[2*(kendcapcoverholenumber[0]-1)+3 | |
6096 | +i*(kendcapcoverholenumber[1]-1)+j]); | |
6097 | } | |
6098 | return endcapsidecovermother; | |
6099 | } | |
6100 | //////////////////////////////////////////////////////////////////////////////// | |
6101 | TGeoVolume** AliITSv11GeometrySSD::GetEndCapCards() const { | |
6102 | //////////////////////////////////////////////////////////////////////////////// | |
6103 | // Method returning Interface Card A, Interface Card B, Supply Card | |
6104 | //////////////////////////////////////////////////////////////////////////////// | |
6105 | ///////////////////// | |
6106 | // Supply Card | |
6107 | ///////////////////// | |
6108 | // Electronic Board Back Al Plane | |
6109 | const Int_t kelectboardbackvertexnumber = 8; | |
6110 | Double_t xelectboardback[kelectboardbackvertexnumber]; | |
6111 | Double_t yelectboardback[kelectboardbackvertexnumber]; | |
6112 | xelectboardback[0] = 0.0; | |
6113 | xelectboardback[1] = xelectboardback[0]; | |
6114 | xelectboardback[2] = fgkEndCapCardElectBoardBackLength[0]; | |
6115 | xelectboardback[3] = xelectboardback[2]; | |
6116 | xelectboardback[4] = xelectboardback[3]-fgkEndCapCardElectBoardBackLength[1]; | |
6117 | xelectboardback[5] = xelectboardback[4]; | |
6118 | xelectboardback[6] = fgkEndCapCardElectBoardBackLength[1]; | |
6119 | xelectboardback[7] = xelectboardback[6]; | |
6120 | ||
6121 | yelectboardback[0] = 0.0; | |
6122 | yelectboardback[1] = fgkEndCapCardElectBoardBackWidth[0]; | |
6123 | yelectboardback[2] = yelectboardback[1]; | |
6124 | yelectboardback[3] = yelectboardback[0]; | |
6125 | yelectboardback[4] = yelectboardback[3]; | |
6126 | yelectboardback[5] = yelectboardback[4]+fgkEndCapCardElectBoardBackWidth[1]; | |
6127 | yelectboardback[6] = yelectboardback[5]; | |
6128 | yelectboardback[7] = yelectboardback[4]; | |
6129 | TGeoXtru* electboardbackshape = new TGeoXtru(2); | |
6130 | electboardbackshape->DefinePolygon(kelectboardbackvertexnumber, | |
6131 | xelectboardback,yelectboardback); | |
6132 | electboardbackshape->DefineSection(0,0.0); | |
6133 | electboardbackshape->DefineSection(1,fgkEndCapCardElectBoardBackThickness); | |
6134 | TGeoVolume* electboardback = new TGeoVolume("EndCapCardElectBoardBackPlane", | |
6135 | electboardbackshape,fSSDSupportRingAl); | |
6136 | electboardback->SetLineColor(fColorAl); | |
6137 | // Electronic Board Kapton Layer | |
6138 | const Int_t kelectlayervertexnumber = 8; | |
6139 | Double_t xelectlayer[kelectlayervertexnumber]; | |
6140 | Double_t yelectlayer[kelectlayervertexnumber]; | |
6141 | xelectlayer[0] = fgkEndCapCardElectBoardBackLength[0]-fgkEndCapCardElectBoardLength; | |
6142 | xelectlayer[1] = xelectlayer[0]; | |
6143 | xelectlayer[2] = fgkEndCapCardElectBoardLength; | |
6144 | xelectlayer[3] = xelectlayer[2]; | |
6145 | for(Int_t i=4; i<kelectlayervertexnumber; i++) xelectlayer[i] = xelectboardback[i]; | |
6146 | ||
6147 | yelectlayer[0] = 0.0; | |
6148 | yelectlayer[1] = fgkEndCapCardElectBoardLayerWidth[0]; | |
6149 | yelectlayer[2] = yelectlayer[1]; | |
6150 | yelectlayer[3] = yelectlayer[0]; | |
6151 | yelectlayer[4] = yelectlayer[3]; | |
6152 | yelectlayer[5] = yelectlayer[4]+fgkEndCapCardElectBoardLayerWidth[1]; | |
6153 | yelectlayer[6] = yelectlayer[5]; | |
6154 | yelectlayer[7] = yelectlayer[4]; | |
6155 | TGeoXtru* electlayershape = new TGeoXtru(2); | |
6156 | electlayershape->DefinePolygon(kelectlayervertexnumber,xelectlayer,yelectlayer); | |
6157 | electlayershape->DefineSection(0,0.0); | |
6158 | electlayershape->DefineSection(1,fgkEndCapCardElectBoardLayerThickness); | |
6159 | TGeoVolume* electlayer = new TGeoVolume("EndCapCardElectBoardLayer", | |
6160 | electlayershape,fSSDKaptonFlexMedium); | |
6161 | electlayer->SetLineColor(fColorKapton); | |
6162 | // JMD Connector Female | |
6163 | const Int_t kjmdconnectorvertexnumber = 6; | |
6164 | Double_t xjmdconnectorvertex[kjmdconnectorvertexnumber]; | |
6165 | Double_t yjmdconnectorvertex[kjmdconnectorvertexnumber]; | |
6166 | xjmdconnectorvertex[0] = 0.0; | |
6167 | xjmdconnectorvertex[1] = xjmdconnectorvertex[0]; | |
6168 | xjmdconnectorvertex[2] = fgkEndCapCardJMDConnectorLength[1]; | |
6169 | xjmdconnectorvertex[3] = xjmdconnectorvertex[2]; | |
6170 | xjmdconnectorvertex[4] = fgkEndCapCardJMDConnectorLength[0]; | |
6171 | xjmdconnectorvertex[5] = xjmdconnectorvertex[4]; | |
6172 | ||
6173 | yjmdconnectorvertex[0] = 0.0; | |
6174 | yjmdconnectorvertex[1] = fgkEndCapCardJMDConnectorWidth[0]; | |
6175 | yjmdconnectorvertex[2] = yjmdconnectorvertex[1]; | |
6176 | yjmdconnectorvertex[3] = yjmdconnectorvertex[2]+fgkEndCapCardJMDConnectorWidth[1]; | |
6177 | yjmdconnectorvertex[4] = yjmdconnectorvertex[3]; | |
6178 | yjmdconnectorvertex[5] = yjmdconnectorvertex[0]; | |
6179 | TGeoXtru* jmdconnectorshape = new TGeoXtru(2); | |
6180 | jmdconnectorshape->DefinePolygon(kjmdconnectorvertexnumber,xjmdconnectorvertex, | |
6181 | yjmdconnectorvertex); | |
6182 | jmdconnectorshape->DefineSection(0,0.0); | |
6183 | jmdconnectorshape->DefineSection(1,fgkEndCapCardJMDConnectorThickness); | |
6184 | TGeoVolume* jmdconnector = new TGeoVolume("EndCapCardJMDConnector", | |
6185 | jmdconnectorshape,fSSDMountingBlockMedium); | |
6186 | jmdconnector->SetLineColor(fColorG10); | |
6187 | // Top Cable Connector | |
6188 | const Int_t kcableconnectorvertexnumber = 8; | |
6189 | Double_t xconnectorvertex[kcableconnectorvertexnumber]; | |
6190 | Double_t yconnectorvertex[kcableconnectorvertexnumber]; | |
6191 | xconnectorvertex[0] = 0.0; | |
6192 | xconnectorvertex[1] = xconnectorvertex[0]; | |
6193 | xconnectorvertex[2] = xconnectorvertex[1]+fgkEndCapCardCableConnectorLength[1]; | |
6194 | xconnectorvertex[3] = xconnectorvertex[2]; | |
6195 | xconnectorvertex[4] = fgkEndCapCardCableConnectorLength[0] | |
6196 | - fgkEndCapCardCableConnectorLength[2]; | |
6197 | xconnectorvertex[5] = xconnectorvertex[4]; | |
6198 | xconnectorvertex[6] = fgkEndCapCardCableConnectorLength[0]; | |
6199 | xconnectorvertex[7] = xconnectorvertex[6]; | |
6200 | ||
6201 | yconnectorvertex[0] = 0.0; | |
6202 | yconnectorvertex[1] = fgkEndCapCardCableConnectorWidth[0]; | |
6203 | yconnectorvertex[2] = yconnectorvertex[1]; | |
6204 | yconnectorvertex[3] = fgkEndCapCardCableConnectorWidth[1]; | |
6205 | yconnectorvertex[4] = yconnectorvertex[3]; | |
6206 | yconnectorvertex[5] = yconnectorvertex[1]; | |
6207 | yconnectorvertex[6] = yconnectorvertex[5]; | |
6208 | yconnectorvertex[7] = yconnectorvertex[0]; | |
6209 | TGeoXtru* cableconnectorshape = new TGeoXtru(2); | |
6210 | cableconnectorshape->DefinePolygon(kcableconnectorvertexnumber,xconnectorvertex, | |
6211 | yconnectorvertex); | |
6212 | cableconnectorshape->DefineSection(0,0.0); | |
6213 | cableconnectorshape->DefineSection(1,fgkEndCapCardCableConnectorThickness); | |
6214 | TGeoVolume* cableconnector = new TGeoVolume("EndCapCardTopCableConnector", | |
6215 | cableconnectorshape,fSSDMountingBlockMedium); | |
6216 | cableconnector->SetLineColor(fColorG10); | |
6217 | // Strip Connection | |
6218 | TGeoBBox* endcapstripconnectionshape = | |
6219 | new TGeoBBox(0.5*fgkEndCapStripConnectionLength, | |
6220 | 0.5*fgkEndCapStripConnectionThickness, | |
6221 | 0.5*fgkEndCapStripConnectionWidth); | |
6222 | TGeoVolume* endcapstripconnection = new TGeoVolume("EndCapStripConnection", | |
6223 | endcapstripconnectionshape, | |
6224 | fSSDSupportRingAl); | |
6225 | endcapstripconnection->SetLineColor(fColorAl); | |
6226 | // Interface Card B | |
6227 | const Int_t kcardBvertexnumber = 12; | |
6228 | Double_t xcardBvertexnumber[kcardBvertexnumber]; | |
6229 | Double_t ycardBvertexnumber[kcardBvertexnumber]; | |
6230 | ||
6231 | xcardBvertexnumber[0] = 0.0; | |
6232 | xcardBvertexnumber[1] = xcardBvertexnumber[0]; | |
6233 | xcardBvertexnumber[2] = xcardBvertexnumber[1]+fgkEndCapInterfaceCardBLength[0]; | |
6234 | xcardBvertexnumber[3] = xcardBvertexnumber[2]; | |
6235 | xcardBvertexnumber[4] = xcardBvertexnumber[1]; | |
6236 | xcardBvertexnumber[5] = xcardBvertexnumber[4]; | |
6237 | xcardBvertexnumber[6] = xcardBvertexnumber[5]+fgkEndCapInterfaceCardBLength[1]; | |
6238 | xcardBvertexnumber[7] = xcardBvertexnumber[6]; | |
6239 | xcardBvertexnumber[8] = xcardBvertexnumber[7]-fgkEndCapInterfaceCardBLength[0]; | |
6240 | xcardBvertexnumber[9] = xcardBvertexnumber[8]; | |
6241 | xcardBvertexnumber[10] = xcardBvertexnumber[7]; | |
6242 | xcardBvertexnumber[11] = xcardBvertexnumber[10]; | |
6243 | ||
6244 | ycardBvertexnumber[0] = 0.0; | |
6245 | ycardBvertexnumber[1] = fgkEndCapInterfaceCardBWidth[0]; | |
6246 | ycardBvertexnumber[2] = ycardBvertexnumber[1]; | |
6247 | ycardBvertexnumber[3] = ycardBvertexnumber[2]+fgkEndCapInterfaceCardBWidth[1]; | |
6248 | ycardBvertexnumber[4] = ycardBvertexnumber[3]; | |
6249 | ycardBvertexnumber[5] = ycardBvertexnumber[4]+fgkEndCapInterfaceCardBWidth[2]; | |
6250 | ycardBvertexnumber[6] = ycardBvertexnumber[5]; | |
6251 | ycardBvertexnumber[7] = ycardBvertexnumber[4]; | |
6252 | ycardBvertexnumber[8] = ycardBvertexnumber[7]; | |
6253 | ycardBvertexnumber[9] = ycardBvertexnumber[1]; | |
6254 | ycardBvertexnumber[10] = ycardBvertexnumber[9]; | |
6255 | ycardBvertexnumber[11] = ycardBvertexnumber[0]; | |
6256 | ||
6257 | TGeoXtru* interfacecardBshape = new TGeoXtru(2); | |
6258 | interfacecardBshape->DefinePolygon(kcardBvertexnumber,xcardBvertexnumber,ycardBvertexnumber); | |
6259 | interfacecardBshape->DefineSection(0,0.); | |
6260 | interfacecardBshape->DefineSection(1,fgkEndCapInterfaceCardBThickness); | |
6261 | TGeoVolume* interfacecardB = new TGeoVolume("EndCapInterfaceCardB",interfacecardBshape, | |
6262 | fSSDMountingBlockMedium); | |
6263 | interfacecardB->SetLineColor(46); | |
6264 | // Interface Card B Electronic Board | |
6265 | const Int_t kelectboardcardBvertexnumber = 14; | |
6266 | Double_t xelectboardcardBvertex[kelectboardcardBvertexnumber]; | |
6267 | Double_t yelectboardcardBvertex[kelectboardcardBvertexnumber]; | |
6268 | ||
6269 | xelectboardcardBvertex[0] = xcardBvertexnumber[0]+fgkEndCapInterfaceCardBLength[2]; | |
6270 | xelectboardcardBvertex[1] = xelectboardcardBvertex[0]; | |
6271 | xelectboardcardBvertex[2] = xelectboardcardBvertex[1]+fgkEndCapInterfaceCardBLength[3]; | |
6272 | xelectboardcardBvertex[3] = xelectboardcardBvertex[2]; | |
6273 | xelectboardcardBvertex[4] = xelectboardcardBvertex[3]+fgkEndCapInterfaceCardBLength[4]; | |
6274 | xelectboardcardBvertex[5] = xelectboardcardBvertex[4]; | |
6275 | xelectboardcardBvertex[6] = xelectboardcardBvertex[5]+fgkEndCapInterfaceCardBLength[5]; | |
6276 | xelectboardcardBvertex[7] = xelectboardcardBvertex[6]; | |
6277 | xelectboardcardBvertex[8] = xelectboardcardBvertex[7]+8.0*fgkEndCapInterfaceCardBLength[4]; | |
6278 | xelectboardcardBvertex[9] = xelectboardcardBvertex[8]; | |
6279 | xelectboardcardBvertex[10] = xelectboardcardBvertex[9]+fgkEndCapInterfaceCardBLength[6]; | |
6280 | xelectboardcardBvertex[11] = xelectboardcardBvertex[10]; | |
6281 | xelectboardcardBvertex[12] = xelectboardcardBvertex[11]-9.0*fgkEndCapInterfaceCardBLength[4]; | |
6282 | xelectboardcardBvertex[13] = xelectboardcardBvertex[12]; | |
6283 | ||
6284 | yelectboardcardBvertex[0] = ycardBvertexnumber[0]+fgkEndCapInterfaceCardBWidth[1]; | |
6285 | yelectboardcardBvertex[1] = yelectboardcardBvertex[0]+fgkEndCapInterfaceCardBWidth[3]; | |
6286 | yelectboardcardBvertex[2] = yelectboardcardBvertex[1]; | |
6287 | yelectboardcardBvertex[3] = yelectboardcardBvertex[2]+fgkEndCapInterfaceCardBWidth[3]; | |
6288 | yelectboardcardBvertex[4] = yelectboardcardBvertex[3]; | |
6289 | yelectboardcardBvertex[5] = yelectboardcardBvertex[2]; | |
6290 | yelectboardcardBvertex[6] = yelectboardcardBvertex[5]; | |
6291 | yelectboardcardBvertex[7] = yelectboardcardBvertex[6]+fgkEndCapInterfaceCardBWidth[4]; | |
6292 | yelectboardcardBvertex[8] = yelectboardcardBvertex[7]; | |
6293 | yelectboardcardBvertex[9] = yelectboardcardBvertex[8]-fgkEndCapInterfaceCardBWidth[3]; | |
6294 | yelectboardcardBvertex[10] = yelectboardcardBvertex[9]; | |
6295 | yelectboardcardBvertex[11] = yelectboardcardBvertex[10]-fgkEndCapInterfaceCardBWidth[3]; | |
6296 | yelectboardcardBvertex[12] = yelectboardcardBvertex[11]; | |
6297 | yelectboardcardBvertex[13] = yelectboardcardBvertex[0]; | |
6298 | ||
6299 | TGeoXtru* electboardcardBshape = new TGeoXtru(2); | |
6300 | electboardcardBshape->DefinePolygon(kelectboardcardBvertexnumber, | |
6301 | xelectboardcardBvertex,yelectboardcardBvertex); | |
6302 | electboardcardBshape->DefineSection(0,fgkEndCapInterfaceCardBThickness); | |
6303 | electboardcardBshape->DefineSection(1,fgkEndCapInterfaceCardBThickness | |
6304 | + fgkEndCapInterfaceElectBoardCardBThickness); | |
6305 | TGeoVolume* electboardcardB = new TGeoVolume("EndCapInterfaceElectBoardCardB",electboardcardBshape, | |
6306 | fSSDSupportRingAl); | |
6307 | electboardcardB->SetLineColor(fColorAl); | |
6308 | // Generating Stiffener 2 | |
6309 | TGeoBBox* endcapstiffenershape = new TGeoBBox(0.5*fgkEndCapStiffenerWidth, | |
6310 | 0.5*fgkEndCapStiffenerThickness, | |
6311 | 0.5*fgkEndCapStiffenerLength); | |
6312 | TGeoVolume* endcapstiffener = new TGeoVolume("EndCapStiffener",endcapstiffenershape,fSSDSupportRingAl); | |
6313 | endcapstiffener->SetLineColor(fColorAl); | |
6314 | // Generating Mother Interface Card B Container | |
6315 | const Int_t kinterfacecardBmothervertexnumber = 10; | |
6316 | Double_t xinterfacecardBmothervertex[kinterfacecardBmothervertexnumber]; | |
6317 | Double_t yinterfacecardBmothervertex[kinterfacecardBmothervertexnumber]; | |
6318 | ||
6319 | xinterfacecardBmothervertex[0] = 0.0; | |
6320 | xinterfacecardBmothervertex[1] = xinterfacecardBmothervertex[0]; | |
6321 | xinterfacecardBmothervertex[2] = xinterfacecardBmothervertex[1] | |
6322 | + fgkEndCapInterfaceCardBThickness; | |
6323 | xinterfacecardBmothervertex[3] = xinterfacecardBmothervertex[2]; | |
6324 | xinterfacecardBmothervertex[4] = xinterfacecardBmothervertex[3] | |
6325 | + fgkEndCapInterfaceElectBoardCardBThickness; | |
6326 | xinterfacecardBmothervertex[5] = xinterfacecardBmothervertex[4]; | |
6327 | xinterfacecardBmothervertex[6] = xinterfacecardBmothervertex[3]; | |
6328 | xinterfacecardBmothervertex[7] = xinterfacecardBmothervertex[6]; | |
6329 | xinterfacecardBmothervertex[8] = xinterfacecardBmothervertex[7] | |
6330 | + fgkEndCapCardJMDConnectorLength[0]; | |
6331 | xinterfacecardBmothervertex[9] = xinterfacecardBmothervertex[8]; | |
6332 | ||
6333 | yinterfacecardBmothervertex[0] = 0.0; | |
6334 | yinterfacecardBmothervertex[1] = fgkEndCapInterfaceCardBWidth[0] | |
6335 | + fgkEndCapInterfaceCardBWidth[1] | |
6336 | + fgkEndCapInterfaceCardBWidth[2]; | |
6337 | yinterfacecardBmothervertex[2] = yinterfacecardBmothervertex[1]; | |
6338 | yinterfacecardBmothervertex[3] = yelectboardcardBvertex[3]; | |
6339 | yinterfacecardBmothervertex[4] = yinterfacecardBmothervertex[3]; | |
6340 | yinterfacecardBmothervertex[5] = yelectboardcardBvertex[11]; | |
6341 | yinterfacecardBmothervertex[6] = yinterfacecardBmothervertex[5]; | |
6342 | yinterfacecardBmothervertex[7] = fgkEndCapCardElectBoardLayerWidth[1] | |
6343 | + fgkEndCapCardJMDConnectorWidth[0] | |
6344 | + fgkEndCapCardJMDConnectorWidth[1]; | |
6345 | yinterfacecardBmothervertex[8] = yinterfacecardBmothervertex[7]; | |
6346 | yinterfacecardBmothervertex[9] = yinterfacecardBmothervertex[0]; | |
6347 | TGeoXtru* interfacecardBmothershape = new TGeoXtru(2); | |
6348 | interfacecardBmothershape->DefinePolygon(kinterfacecardBmothervertexnumber, | |
6349 | xinterfacecardBmothervertex, | |
6350 | yinterfacecardBmothervertex); | |
6351 | interfacecardBmothershape->DefineSection(0,-1.e-15); | |
6352 | interfacecardBmothershape->DefineSection(1,fgkEndCapInterfaceCardBLength[1]); | |
6353 | TGeoVolume* interfacecardBmother = new TGeoVolume("EndCapInterfaceCardBMother", | |
6354 | interfacecardBmothershape,fSSDAir); | |
6355 | electboardcardB->SetLineColor(fColorAl); | |
6356 | // Positioning Volumes Mother Interface Card B Container | |
6357 | TGeoRotation* interfacecardBrot = new TGeoRotation(); | |
6358 | TGeoTranslation* interfacecardBtrans = new TGeoTranslation(); | |
6359 | interfacecardBrot->SetAngles(90.,-90.,-90.); | |
6360 | interfacecardBtrans->SetTranslation(fgkEndCapInterfaceCardBThickness,0.,0.); | |
6361 | TGeoCombiTrans* interfacecardBcombitrans = new TGeoCombiTrans(*interfacecardBtrans,*interfacecardBrot); | |
6362 | TGeoRotation* electboardcardBrot = new TGeoRotation(); | |
6363 | TGeoTranslation* electboardcardBtrans = new TGeoTranslation(); | |
6364 | electboardcardBrot->SetAngles(90.,90.,-90.); | |
6365 | electboardcardBtrans->SetTranslation(0.,0.,fgkEndCapInterfaceCardBLength[1]); | |
6366 | TGeoCombiTrans* electboardcardBcombitrans = | |
6367 | new TGeoCombiTrans(*electboardcardBtrans,*electboardcardBrot); | |
6368 | interfacecardBmother->AddNode(interfacecardB,1,interfacecardBcombitrans); | |
6369 | interfacecardBmother->AddNode(electboardcardB,1,electboardcardBcombitrans); | |
6370 | TGeoRotation* jmdconnectorcardBrot = new TGeoRotation(); | |
6371 | jmdconnectorcardBrot->SetAngles(90.,180.,-90.); | |
6372 | TGeoTranslation* jmdconnectorcardBtrans[3]; | |
6373 | TGeoCombiTrans* jmdconnectorcardBcombitrans[3]; | |
6374 | for(Int_t i=0; i<3; i++){ | |
6375 | jmdconnectorcardBtrans[i] = new TGeoTranslation(fgkEndCapInterfaceCardBThickness | |
6376 | + fgkEndCapCardJMDConnectorLength[0], | |
6377 | fgkEndCapCardElectBoardLayerWidth[1], | |
6378 | 0.5*fgkEndCapCardJMDConnectorThickness | |
6379 | + 0.5*(fgkEndCapInterfaceCardBLength[1] | |
6380 | - 2.*fgkEndCapInterfaceCardBJMDConnectorSeparation) | |
6381 | + i *fgkEndCapInterfaceCardBJMDConnectorSeparation); | |
6382 | jmdconnectorcardBcombitrans[i] = new TGeoCombiTrans(*jmdconnectorcardBtrans[i], | |
6383 | *jmdconnectorcardBrot); | |
6384 | interfacecardBmother->AddNode(jmdconnector,i+1,jmdconnectorcardBcombitrans[i]); | |
6385 | } | |
6386 | // Mother Supply Card Container | |
6387 | TGeoVolumeAssembly* mothersupplycard = new TGeoVolumeAssembly("EndCapCardMotherSupply"); | |
6388 | // Interface Card Container | |
6389 | TGeoVolumeAssembly* motherinterfacecardcontainer = new TGeoVolumeAssembly("EndCapMotherInterfaceCardA"); | |
6390 | // Placing Volumes in Mother Supply Card Container | |
6391 | // JMD Connector Positioning | |
6392 | TGeoTranslation* jmdconnectortrans[2]; | |
6393 | for(Int_t i=0; i<2; i++) jmdconnectortrans[i] = new TGeoTranslation(); | |
6394 | jmdconnectortrans[0]->SetTranslation(0.,fgkEndCapCardElectBoardLayerWidth[1], | |
6395 | fgkEndCapCardElectBoardBackLength[0] | |
6396 | - fgkEndCapCardJMDConnectorThickness | |
6397 | - fgkEndCapCardJMDConnectorToLayer); | |
6398 | TGeoRotation* jmdconnectorot = new TGeoRotation(); | |
6399 | jmdconnectortrans[1]->SetTranslation(fgkEndCapCardElectBoardBackThickness | |
6400 | + 2.*fgkEndCapCardJMDConnectorLength[0] | |
6401 | + 2.*fgkEndCapCardElectBoardLayerThickness, | |
6402 | fgkEndCapCardElectBoardLayerWidth[1], | |
6403 | fgkEndCapCardJMDConnectorThickness | |
6404 | + fgkEndCapCardJMDConnectorToLayer); | |
6405 | jmdconnectorot->SetAngles(90.,180.,-90); | |
6406 | TGeoCombiTrans* jmdconnectorcombitrans = new TGeoCombiTrans(*jmdconnectortrans[1], | |
6407 | * jmdconnectorot); | |
6408 | mothersupplycard->AddNode(jmdconnector,1,jmdconnectortrans[0]); | |
6409 | mothersupplycard->AddNode(jmdconnector,2,jmdconnectorcombitrans); | |
6410 | // Top Cable Connector Placing | |
6411 | TGeoRotation* cableconnectorot[2]; | |
6412 | for(Int_t i=0; i<2; i++) cableconnectorot[i] = new TGeoRotation(); | |
6413 | TGeoTranslation* cableconnectortrans[3]; | |
6414 | for(Int_t i=0; i<3; i++) cableconnectortrans[i] = new TGeoTranslation(); | |
6415 | cableconnectorot[0]->SetAngles(90.,0.,0.); | |
6416 | cableconnectorot[1]->SetAngles(0.,-90.,0.); | |
6417 | cableconnectortrans[0]->SetTranslation(fgkEndCapCardJMDConnectorLength[0],0.,0.); | |
6418 | TGeoCombiTrans* cableconnectorcombitrans = new TGeoCombiTrans(*cableconnectortrans[0], | |
6419 | *cableconnectorot[0]); | |
6420 | TGeoHMatrix* cableconnectormatrix[2]; | |
6421 | for(Int_t i=0; i<2; i++) cableconnectormatrix[i] = | |
6422 | new TGeoHMatrix((*cableconnectorot[1]) | |
6423 | *(*cableconnectorcombitrans)); | |
6424 | cableconnectortrans[1]->SetTranslation(0.,fgkEndCapCardElectBoardLayerWidth[0] | |
6425 | - fgkEndCapCardCableConnectorThickness, | |
6426 | fgkEndCapCardCableConnectorLength[0] | |
6427 | + fgkEndCapCardCableConnectorToLayer); | |
6428 | cableconnectortrans[2]->SetTranslation(0.,fgkEndCapCardElectBoardLayerWidth[0] | |
6429 | - 2.*fgkEndCapCardCableConnectorThickness | |
6430 | - fgkEndCapCardCableConnectorDistance, | |
6431 | fgkEndCapCardCableConnectorLength[0] | |
6432 | + fgkEndCapCardCableConnectorToLayer); | |
6433 | for(Int_t i=0; i<2; i++){ | |
6434 | cableconnectormatrix[i]->MultiplyLeft(cableconnectortrans[i+1]); | |
6435 | mothersupplycard->AddNode(cableconnector,i+1,cableconnectormatrix[i]); | |
6436 | } | |
6437 | TGeoRotation* electboardbackrot = new TGeoRotation(); | |
6438 | TGeoTranslation* electboardbacktrans = new TGeoTranslation(); | |
6439 | electboardbackrot->SetAngles(90.,-90.,-90.); | |
6440 | electboardbacktrans->SetTranslation(fgkEndCapCardElectBoardBackThickness | |
6441 | + fgkEndCapCardJMDConnectorLength[0] | |
6442 | + fgkEndCapCardElectBoardLayerThickness,0.,0.); | |
6443 | TGeoCombiTrans* electboardbackcombitrans = new TGeoCombiTrans(*electboardbacktrans, | |
6444 | *electboardbackrot); | |
6445 | mothersupplycard->AddNode(electboardback,1,electboardbackcombitrans); | |
6446 | // Electronic Board Kapton Layer Positioning | |
6447 | TGeoRotation* electlayerrot = new TGeoRotation(); | |
6448 | TGeoTranslation* electlayertrans[2]; | |
6449 | TGeoCombiTrans* electlayercombitrans[2]; | |
6450 | for(Int_t i=0; i<2; i++) electlayertrans[i] = new TGeoTranslation(); | |
6451 | electlayerrot->SetAngles(90.,-90.,-90.); | |
6452 | electlayertrans[0]->SetTranslation(fgkEndCapCardJMDConnectorLength[0] | |
6453 | + fgkEndCapCardElectBoardLayerThickness,0.,0.); | |
6454 | electlayertrans[1]->SetTranslation(fgkEndCapCardJMDConnectorLength[0] | |
6455 | + 2.*fgkEndCapCardElectBoardLayerThickness | |
6456 | + fgkEndCapCardElectBoardBackThickness,0.,0.); | |
6457 | for(Int_t i=0; i<2; i++){ | |
6458 | electlayercombitrans[i] = new TGeoCombiTrans(*electlayertrans[i],*electlayerrot); | |
6459 | mothersupplycard->AddNode(electlayer,i+1,electlayercombitrans[i]); | |
6460 | } | |
6461 | // Placing Volumes in Mother Interface Card Container | |
6462 | motherinterfacecardcontainer->AddNode(jmdconnector,1,jmdconnectorcombitrans); | |
6463 | motherinterfacecardcontainer->AddNode(electboardback,1,electboardbackcombitrans); | |
6464 | for(Int_t i=0; i<2; i++){ | |
6465 | motherinterfacecardcontainer->AddNode(electlayer,i+1,electlayercombitrans[i]); | |
6466 | } | |
6467 | ///////////////////////////////////////////////////////////// | |
6468 | // Generation of Card Interface Container | |
6469 | ///////////////////////////////////////////////////////////// | |
6470 | Double_t stiffenertransx = fgkEndCapKaptonFoilWidth-fgkEndCapStiffenerWidth | |
6471 | - fgkEndCapCardJMDConnectorLength[0] | |
6472 | - fgkEndCapInterfaceCardBThickness | |
6473 | - 9.*fgkEndCapStripConnectionThickness | |
6474 | - 8.*fgkEndCapCardElectBoardBackThickness; | |
6475 | const Int_t kcardinterfacecontainervertexnumber = 14; | |
6476 | Double_t xcardinterfacecontainervertex[kcardinterfacecontainervertexnumber]; | |
6477 | Double_t ycardinterfacecontainervertex[kcardinterfacecontainervertexnumber]; | |
6478 | xcardinterfacecontainervertex[0] =-6.5*fgkEndCapCardElectBoardBackThickness | |
6479 | - 7.0*fgkEndCapStripConnectionThickness; | |
6480 | xcardinterfacecontainervertex[1] = xcardinterfacecontainervertex[0]; | |
6481 | xcardinterfacecontainervertex[2] = xcardinterfacecontainervertex[1] | |
6482 | + fgkEndCapStripConnectionThickness | |
6483 | - fgkEndCapCardElectBoardLayerThickness | |
6484 | - fgkEndCapCardCableConnectorWidth[0]; | |
6485 | xcardinterfacecontainervertex[3] = xcardinterfacecontainervertex[2]; | |
6486 | xcardinterfacecontainervertex[4] = xcardinterfacecontainervertex[1]; | |
6487 | xcardinterfacecontainervertex[5] = xcardinterfacecontainervertex[4]; | |
6488 | xcardinterfacecontainervertex[6] = 1.5*fgkEndCapCardElectBoardBackThickness | |
6489 | + 2.0*fgkEndCapStripConnectionThickness; | |
6490 | xcardinterfacecontainervertex[7] = xcardinterfacecontainervertex[6]; | |
6491 | xcardinterfacecontainervertex[8] = xcardinterfacecontainervertex[7] | |
6492 | + fgkEndCapInterfaceCardBThickness; | |
6493 | xcardinterfacecontainervertex[9] = xcardinterfacecontainervertex[8]; | |
6494 | xcardinterfacecontainervertex[10] = xcardinterfacecontainervertex[9] | |
6495 | + fgkEndCapInterfaceElectBoardCardBThickness; | |
6496 | xcardinterfacecontainervertex[11] = xcardinterfacecontainervertex[10]; | |
6497 | xcardinterfacecontainervertex[12] = xcardinterfacecontainervertex[11] | |
6498 | - fgkEndCapInterfaceElectBoardCardBThickness | |
6499 | + fgkEndCapCardJMDConnectorLength[0] | |
6500 | + stiffenertransx+fgkEndCapStiffenerWidth; | |
6501 | xcardinterfacecontainervertex[13] = xcardinterfacecontainervertex[12]; | |
6502 | ||
6503 | ycardinterfacecontainervertex[0] = 0.; | |
6504 | ycardinterfacecontainervertex[1] = fgkEndCapCardElectBoardLayerWidth[1] | |
6505 | + fgkEndCapCardJMDConnectorWidth[0] | |
6506 | + fgkEndCapCardJMDConnectorWidth[1]; | |
6507 | ycardinterfacecontainervertex[2] = ycardinterfacecontainervertex[1]; | |
6508 | ycardinterfacecontainervertex[3] = fgkEndCapCardElectBoardBackWidth[0] | |
6509 | - fgkEndCapStripConnectionWidth; | |
6510 | ycardinterfacecontainervertex[4] = ycardinterfacecontainervertex[3]; | |
6511 | ycardinterfacecontainervertex[5] = fgkEndCapCardElectBoardBackWidth[0]; | |
6512 | ycardinterfacecontainervertex[6] = ycardinterfacecontainervertex[5]; | |
6513 | ycardinterfacecontainervertex[7] = fgkEndCapInterfaceCardBWidth[0] | |
6514 | + fgkEndCapInterfaceCardBWidth[1] | |
6515 | + fgkEndCapInterfaceCardBWidth[2]; | |
6516 | ycardinterfacecontainervertex[8] = ycardinterfacecontainervertex[7]; | |
6517 | ycardinterfacecontainervertex[9] = yelectboardcardBvertex[3]; | |
6518 | ycardinterfacecontainervertex[10] = ycardinterfacecontainervertex[9]; | |
6519 | ycardinterfacecontainervertex[11] = ycardinterfacecontainervertex[1]; | |
6520 | ycardinterfacecontainervertex[12] = ycardinterfacecontainervertex[11]; | |
6521 | ycardinterfacecontainervertex[13] = ycardinterfacecontainervertex[0]; | |
6522 | ||
6523 | TGeoXtru* interfacecardmothershape = new TGeoXtru(2); | |
6524 | interfacecardmothershape->DefinePolygon(kcardinterfacecontainervertexnumber, | |
6525 | xcardinterfacecontainervertex, | |
6526 | ycardinterfacecontainervertex); | |
6527 | interfacecardmothershape->DefineSection(0,-1.e-15-0.5*(fgkEndCapStiffenerLength | |
6528 | - fgkEndCapCardElectBoardBackLength[0])); | |
6529 | interfacecardmothershape->DefineSection(1,0.5*(fgkEndCapStiffenerLength | |
6530 | + fgkEndCapCardElectBoardBackLength[0])); | |
6531 | TGeoVolume** cardinterfacecontainer; | |
6532 | cardinterfacecontainer = new TGeoVolume*[4]; | |
6533 | cardinterfacecontainer[0] = new TGeoVolume("EndCapCardsContainerLayer5Sx", | |
6534 | interfacecardmothershape,fSSDAir); | |
6535 | cardinterfacecontainer[1] = new TGeoVolume("EndCapCardsContainerLayer5Dx", | |
6536 | interfacecardmothershape,fSSDAir); | |
6537 | cardinterfacecontainer[2] = new TGeoVolume("EndCapCardsContainerLayer6Sx", | |
6538 | interfacecardmothershape,fSSDAir); | |
6539 | cardinterfacecontainer[3] = new TGeoVolume("EndCapCardsContainerLayer6Dx", | |
6540 | interfacecardmothershape,fSSDAir); | |
6541 | ///////////////////////////////// | |
6542 | // cardinterfacecontainer[0]: Card Container End Cap Layer 5 Bellegarde Side | |
6543 | // cardinterfacecontainer[1]: Card Container End Cap Layer 5 Gex Side | |
6544 | // cardinterfacecontainer[2]: Card Container End Cap Layer 6 Bellegarde Side | |
6545 | // cardinterfacecontainer[3]: Card Container End Cap Layer 6 Gex Side | |
6546 | ///////////////////////////////// | |
6547 | TGeoRotation* endcapstripconnectionrot[2]; | |
6548 | for(Int_t i=0; i<2; i++) endcapstripconnectionrot[i] = new TGeoRotation(); | |
6549 | endcapstripconnectionrot[0]->SetAngles(0.,90.,0.); | |
6550 | endcapstripconnectionrot[1]->SetAngles(90.,90.,-90.); | |
6551 | TGeoHMatrix* endcapstripconnectionmatrix = new TGeoHMatrix((*endcapstripconnectionrot[1]) | |
6552 | * (*endcapstripconnectionrot[0])); | |
6553 | TGeoTranslation* endcapstripconnectiontrans = new TGeoTranslation(); | |
6554 | endcapstripconnectiontrans->SetTranslation(-endcapstripconnectionshape->GetDY() | |
6555 | -0.5*fgkEndCapCardElectBoardBackThickness, | |
6556 | fgkEndCapCardElectBoardBackWidth[0] | |
6557 | -endcapstripconnectionshape->GetDZ(), | |
6558 | 0.5*fgkEndCapCardElectBoardBackLength[0]); | |
6559 | endcapstripconnectionmatrix->MultiplyLeft(endcapstripconnectiontrans); | |
6560 | TGeoTranslation* cardinterfacetrans[9]; | |
6561 | TGeoHMatrix* cardinterfacematrix[9]; | |
6562 | for(Int_t i=0; i<7; i++){ | |
6563 | cardinterfacetrans[i] = new TGeoTranslation(-i*(fgkEndCapStripConnectionThickness | |
6564 | + fgkEndCapCardElectBoardBackThickness), | |
6565 | 0.0,0.0); | |
6566 | cardinterfacematrix[i] = new TGeoHMatrix((*cardinterfacetrans[i]) | |
6567 | * (*endcapstripconnectionmatrix)); | |
6568 | } | |
6569 | cardinterfacetrans[7] = new TGeoTranslation((fgkEndCapStripConnectionThickness | |
6570 | + fgkEndCapCardElectBoardBackThickness), | |
6571 | 0.0,0.0); | |
6572 | cardinterfacematrix[7] = new TGeoHMatrix((*cardinterfacetrans[7]) | |
6573 | * (*endcapstripconnectionmatrix)); | |
6574 | cardinterfacetrans[8] = new TGeoTranslation(2.*(fgkEndCapStripConnectionThickness | |
6575 | + fgkEndCapCardElectBoardBackThickness), | |
6576 | 0.0,0.0); | |
6577 | cardinterfacematrix[8] = new TGeoHMatrix((*cardinterfacetrans[8]) | |
6578 | * (*endcapstripconnectionmatrix)); | |
6579 | ||
6580 | for(Int_t i=0; i<4; i++){ | |
6581 | cardinterfacecontainer[i]->AddNode(endcapstripconnection,1, | |
6582 | cardinterfacematrix[7]); | |
6583 | cardinterfacecontainer[i]->AddNode(endcapstripconnection,2, | |
6584 | cardinterfacematrix[8]); | |
6585 | } | |
6586 | TGeoTranslation* mothersupplycardtrans = | |
6587 | new TGeoTranslation(-0.5*(fgkEndCapCardElectBoardBackThickness | |
6588 | + 2.*fgkEndCapCardJMDConnectorLength[0] | |
6589 | + 2.*fgkEndCapCardElectBoardLayerThickness),0.0,0.0); | |
6590 | TGeoHMatrix* mothersupplycardmatrix[7]; | |
6591 | Int_t index[4] = {1,1,1,1}; | |
6592 | for(Int_t i=0; i<7; i++){ | |
6593 | mothersupplycardmatrix[i] = new TGeoHMatrix((*cardinterfacetrans[i]) | |
6594 | * (*mothersupplycardtrans)); | |
6595 | for(Int_t j=0; j<4; j++){ | |
6596 | switch(j){ | |
6597 | case 0: //Layer5 EndCap Left Side | |
6598 | cardinterfacecontainer[j]->AddNode(endcapstripconnection,i+3, | |
6599 | cardinterfacematrix[i]); | |
6600 | if(i!=0){ | |
6601 | cardinterfacecontainer[j]->AddNode(mothersupplycard,index[j], | |
6602 | mothersupplycardmatrix[i]); | |
6603 | index[j]++; | |
6604 | ||
6605 | } | |
6606 | break; | |
6607 | case 1: //Layer5 EndCap Rigth Side | |
6608 | cardinterfacecontainer[j]->AddNode(endcapstripconnection,i+3, | |
6609 | cardinterfacematrix[i]); | |
6610 | if(i>0&&i<6){ | |
6611 | cardinterfacecontainer[j]->AddNode(mothersupplycard,index[j], | |
6612 | mothersupplycardmatrix[i]); | |
6613 | index[j]++; | |
6614 | } | |
6615 | break; | |
6616 | case 2: //Layer6 EndCap Left Side | |
6617 | cardinterfacecontainer[j]->AddNode(endcapstripconnection,i+3, | |
6618 | cardinterfacematrix[i]); | |
6619 | if(i!=6){ | |
6620 | cardinterfacecontainer[j]->AddNode(mothersupplycard,index[j], | |
6621 | mothersupplycardmatrix[i]); | |
6622 | index[j]++; | |
6623 | } | |
6624 | break; | |
6625 | case 3: //Layer6 EndCap Right Side | |
6626 | cardinterfacecontainer[j]->AddNode(endcapstripconnection,i+3, | |
6627 | cardinterfacematrix[i]); | |
6628 | cardinterfacecontainer[j]->AddNode(mothersupplycard,index[j], | |
6629 | mothersupplycardmatrix[i]); | |
6630 | index[j]++; | |
6631 | break; | |
6632 | } | |
6633 | } | |
6634 | } | |
6635 | // Positioning Interface | |
6636 | TGeoTranslation* motherinterfacecardtrans = | |
6637 | new TGeoTranslation( -fgkEndCapCardJMDConnectorLength[0] | |
6638 | +0.5*fgkEndCapCardElectBoardBackThickness | |
6639 | -fgkEndCapCardElectBoardLayerThickness | |
6640 | +fgkEndCapStripConnectionThickness,0.,0.); | |
6641 | for(Int_t i=0; i<4; i++) cardinterfacecontainer[i]->AddNode( | |
6642 | motherinterfacecardcontainer,i+1,motherinterfacecardtrans); | |
6643 | // Positioning Interface Card B | |
6644 | TGeoTranslation* interfacecardBmothertrans = | |
6645 | new TGeoTranslation(0.5 * fgkEndCapCardElectBoardBackThickness | |
6646 | + 2.*fgkEndCapStripConnectionThickness | |
6647 | + fgkEndCapCardElectBoardBackThickness,0., | |
6648 | -0.5 * (fgkEndCapInterfaceCardBLength[1] | |
6649 | - fgkEndCapCardElectBoardBackLength[0])); | |
6650 | for(Int_t i=0; i<4; i++) cardinterfacecontainer[i]->AddNode(interfacecardBmother,1, | |
6651 | interfacecardBmothertrans); | |
6652 | // Positioning Stiffener | |
6653 | TGeoTranslation* endcapstiffenertrans = | |
6654 | new TGeoTranslation(1.5*fgkEndCapCardElectBoardBackThickness | |
6655 | + 2.0*fgkEndCapStripConnectionThickness | |
6656 | + fgkEndCapInterfaceCardBThickness | |
6657 | + fgkEndCapCardJMDConnectorLength[0] | |
6658 | + stiffenertransx | |
6659 | + endcapstiffenershape->GetDX(),endcapstiffenershape->GetDY(), | |
6660 | endcapstiffenershape->GetDZ() | |
6661 | - 0.5*(fgkEndCapStiffenerLength | |
6662 | - fgkEndCapCardElectBoardBackLength[0])); | |
6663 | for(Int_t i=0; i<4; i++) cardinterfacecontainer[i]->AddNode(endcapstiffener,1,endcapstiffenertrans); | |
6664 | ///////////////////////////////////////////////////////////// | |
6665 | // Deallocating memory | |
6666 | ///////////////////////////////////////////////////////////// | |
6667 | delete interfacecardBrot; | |
6668 | delete interfacecardBtrans; | |
6669 | delete electboardcardBtrans; | |
6670 | delete electboardcardBrot; | |
6671 | delete jmdconnectorcardBrot; | |
6672 | for(Int_t i=0; i<3; i++) delete jmdconnectorcardBtrans[i]; | |
6673 | delete jmdconnectorot; | |
6674 | delete jmdconnectortrans[1]; | |
6675 | for(Int_t i=0; i<2; i++) delete cableconnectorot[i]; | |
6676 | delete cableconnectorcombitrans; | |
6677 | delete electboardbacktrans; | |
6678 | delete electboardbackrot; | |
6679 | delete electlayerrot; | |
6680 | for(Int_t i=0; i<2; i++) delete electlayertrans[i]; | |
6681 | for(Int_t i=0; i<2; i++) delete endcapstripconnectionrot[i]; | |
6682 | delete mothersupplycardtrans; | |
6683 | for(Int_t i=0; i<7; i++) delete cardinterfacetrans[i]; | |
6684 | ///////////////////////////////////////////////////////////// | |
6685 | return cardinterfacecontainer; | |
6686 | } | |
6687 | //////////////////////////////////////////////////////////////////////////////// | |
6688 | TGeoVolume** AliITSv11GeometrySSD::GetEndCapAssembly(){ | |
6689 | ///////////////////////////////////////////////////////////// | |
6690 | // Method returning EndCap Mother Volume | |
6691 | ///////////////////////////////////////////////////////////// | |
6692 | const Int_t kendcapcoverplatesmallholenumber = 9; | |
6693 | Double_t endcapmotherorigin[3]; | |
6694 | endcapmotherorigin[0] = -fgkEndCapCoverPlateLength[0] | |
6695 | + 0.5 *(fgkEndCapCoverPlateLength[3] | |
6696 | + 2.0 * fgkEndCapCoverPlateLength[2]); | |
6697 | endcapmotherorigin[1] = - 0.5 * (fgkEndCapCoverPlateWidth[0] | |
6698 | - fgkEndCapCoverPlateWidth[2] | |
6699 | - (kendcapcoverplatesmallholenumber-1) | |
6700 | * fgkEndCapCoverPlateSmallHoleSeparation[2]) | |
6701 | + 0.5*(fgkEndCapSideCoverLength[2] | |
6702 | + fgkEndCapCoverPlateWidth[1] | |
6703 | - fgkEndCapCoverPlateWidth[0]) | |
6704 | - (fgkEndCapCoverPlateWidth[1] | |
6705 | - fgkEndCapCoverPlateWidth[0]); | |
6706 | endcapmotherorigin[2] = 0.5*fgkEndCapCoverPlateThickness | |
6707 | + 2.*fgkEndCapCoolingTubeRadiusMax | |
6708 | - 0.5*(2.*fgkEndCapCoolingTubeRadiusMax | |
6709 | + fgkEndCapSideCoverWidth[1] | |
6710 | + fgkEndCapSideCoverThickness | |
6711 | + fgkEndCapKaptonFoilThickness); | |
6712 | TGeoBBox* endcapmothershape = new TGeoBBox(0.5*(fgkEndCapCoverPlateLength[3] | |
6713 | + 2.0* fgkEndCapCoverPlateLength[2] | |
6714 | + 2.0* fgkEndCapSideCoverThickness), | |
6715 | 0.5* (fgkEndCapSideCoverLength[2] | |
6716 | + fgkEndCapCoverPlateWidth[1] | |
6717 | - fgkEndCapCoverPlateWidth[0]), | |
6718 | 0.5* (2.*fgkEndCapCoolingTubeRadiusMax | |
6719 | + fgkEndCapSideCoverWidth[1] | |
6720 | + fgkEndCapSideCoverThickness | |
6721 | + fgkEndCapKaptonFoilThickness), | |
6722 | endcapmotherorigin); | |
6723 | TGeoVolume** endcapassembly; | |
6724 | endcapassembly = new TGeoVolume*[4]; | |
6725 | endcapassembly[0] = new TGeoVolume("EndCapContainerLayer5Sx", | |
6726 | endcapmothershape,fSSDAir); | |
6727 | endcapassembly[1] = new TGeoVolume("EndCapContainerLayer5Dx", | |
6728 | endcapmothershape,fSSDAir); | |
6729 | endcapassembly[2] = new TGeoVolume("EndCapContainerLayer6Sx", | |
6730 | endcapmothershape,fSSDAir); | |
6731 | endcapassembly[3] = new TGeoVolume("EndCapContainerLayer6Dx", | |
6732 | endcapmothershape,fSSDAir); | |
6733 | ///////////////////////////////// | |
6734 | // endcapassembly[0]: Container End Cap Layer 5 Bellegarde Side | |
6735 | // endcapassembly[1]: Container End Cap Layer 5 Gex Side | |
6736 | // endcapassembly[2]: Container End Cap Layer 6 Bellegarde Side | |
6737 | // endcapassembly[3]: Container End Cap Layer 6 Gex Side | |
6738 | ///////////////////////////////// | |
6739 | ///////////////////////////////////////////////////// | |
6740 | // Placing Endcap Cover Plate | |
6741 | ///////////////////////////////////////////////////// | |
6742 | TGeoVolume* endcapcoverplate = GetEndCapCoverPlate(); | |
6743 | TGeoRotation* endcapcoverplaterot = new TGeoRotation(); | |
6744 | endcapcoverplaterot->SetAngles(90.0,180.0,-90.0); | |
6745 | TGeoCombiTrans* endcapcoverplatecombitrans = | |
6746 | new TGeoCombiTrans(-0.5*fgkEndCapCoverPlateLength[1],0.,0., | |
6747 | endcapcoverplaterot); | |
6748 | TGeoTranslation* endcapcoverplatetrans = | |
6749 | new TGeoTranslation(1.5*fgkEndCapCoverPlateLength[1],0.,0.); | |
6750 | TGeoHMatrix* endcapcoverplatematrix = | |
6751 | new TGeoHMatrix((*endcapcoverplatetrans) | |
6752 | * (*endcapcoverplatecombitrans)); | |
6753 | for(Int_t i=0; i<4; i++) endcapassembly[i]->AddNode(endcapcoverplate,1,endcapcoverplatematrix); | |
6754 | ///////////////////////////////////////////////////// | |
6755 | // Placing Endcap Side Cover | |
6756 | ///////////////////////////////////////////////////// | |
6757 | TGeoVolume* endcapsidecover = GetEndCapSideCover(); | |
6758 | TGeoRotation* endcapsidecoverot[2]; | |
6759 | TGeoCombiTrans* endcapsidecovercombitrans[3]; | |
6760 | for(Int_t i=0; i<2; i++) endcapsidecoverot[i] = new TGeoRotation(); | |
6761 | endcapsidecoverot[0]->SetAngles(-90.,0.,0.); | |
6762 | endcapsidecovercombitrans[0] = new TGeoCombiTrans(0.0, | |
6763 | - 0.5*(fgkEndCapCoverPlateWidth[0] | |
6764 | - fgkEndCapCoverPlateWidth[2] | |
6765 | - (kendcapcoverplatesmallholenumber-1) | |
6766 | * fgkEndCapCoverPlateSmallHoleSeparation[2]) | |
6767 | + 0.*fgkEndCapCoverPlateWidth[0] | |
6768 | + fgkEndCapSideCoverLength[2], | |
6769 | 0.5*(fgkEndCapSideCoverThickness | |
6770 | + fgkEndCapCoverPlateThickness) | |
6771 | - 0.5*fgkEndCapCoverPlateThickness, | |
6772 | endcapsidecoverot[0]); | |
6773 | endcapsidecoverot[1]->SetAngles(90.,-90.,-90.); | |
6774 | endcapsidecovercombitrans[1] = new TGeoCombiTrans(-fgkEndCapCoverPlateLength[0],0.0, | |
6775 | 0.5*fgkEndCapCoverPlateThickness | |
6776 | -fgkEndCapSideCoverWidth[1], | |
6777 | endcapsidecoverot[1]); | |
6778 | endcapsidecovercombitrans[2] = new TGeoCombiTrans(-fgkEndCapCoverPlateLength[0] | |
6779 | +fgkEndCapCoverPlateLength[3] | |
6780 | +2.*fgkEndCapCoverPlateLength[2] | |
6781 | +fgkEndCapSideCoverThickness,0.0, | |
6782 | 0.5*fgkEndCapCoverPlateThickness | |
6783 | -fgkEndCapSideCoverWidth[1], | |
6784 | endcapsidecoverot[1]); | |
6785 | TGeoHMatrix* endcapsidecovermatrix[2]; | |
6786 | for(Int_t i=0; i<2; i++){ | |
6787 | endcapsidecovermatrix[i] = new TGeoHMatrix((*endcapsidecovercombitrans[i+1]) | |
6788 | * (*endcapsidecovercombitrans[0])); | |
6789 | for(Int_t k=0; k<4; k++) endcapassembly[k]->AddNode(endcapsidecover,i+1, | |
6790 | endcapsidecovermatrix[i]); | |
6791 | } | |
6792 | ///////////////////////////////////////////////////// | |
6793 | // Placing Endcap Cooling Tube | |
6794 | ///////////////////////////////////////////////////// | |
6795 | TGeoVolume* endcapcoolingtube = GetEndCapCoolingTube(); | |
6796 | TGeoRotation* endcapcoolingtuberot = new TGeoRotation(); | |
6797 | endcapcoolingtuberot->SetAngles(0.,180.,0.); | |
6798 | TGeoCombiTrans* endcapccolingtubecombitrans | |
6799 | = new TGeoCombiTrans(-0.5*(fgkEndCapCoolingTubeAxialRadius[0] | |
6800 | + fgkEndCapCoolingTubeAxialRadius[1]) | |
6801 | + fgkEndCapCoverPlateLength[0]+fgkEndCapCoverPlateLength[1] | |
6802 | - fgkEndCapCoolingTubeToCoverSide, | |
6803 | fgkEndCapCoolingTubeAxialRadius[0],fgkEndCapCoolingTubeRadiusMax | |
6804 | + 0.5*fgkEndCapCoverPlateThickness,endcapcoolingtuberot); | |
6805 | for(Int_t i=0; i<4; i++) endcapassembly[i]->AddNode(endcapcoolingtube,1, | |
6806 | endcapccolingtubecombitrans); | |
6807 | ///////////////////////////////////////////////////// | |
6808 | // Placing Screws | |
6809 | ///////////////////////////////////////////////////// | |
6810 | Double_t screwcoverplateradius[2] = {fgkEndCapCoverPlateScrewRadiusMax, | |
6811 | fgkEndCapCoverPlateScrewRadiusMin}; | |
6812 | Int_t screwcoverplatedgesnumber[2] = {20,20}; | |
6813 | Double_t screwcoverplatesection[2] = {0.5*fgkEndCapCoverPlateThickness, | |
6814 | fgkEndCapCoverPlateThickness | |
6815 | + fgkEndCapCoolingTubeRadiusMax}; | |
6816 | TGeoShape* screwcoverplateshape = GetScrewShape(screwcoverplateradius, | |
6817 | screwcoverplatedgesnumber, | |
6818 | screwcoverplatesection); | |
6819 | TGeoVolume* screwcoverplate = new TGeoVolume("EndCapScrewCoverPlate", | |
6820 | screwcoverplateshape, | |
6821 | fSSDCoolingTubePhynox); | |
6822 | screwcoverplate->SetLineColor(12); | |
6823 | Double_t transx[4] = {0, | |
6824 | fgkEndCapCoverPlateSmallHoleSeparation[0], | |
6825 | fgkEndCapCoverPlateSmallHoleSeparation[0] | |
6826 | + fgkEndCapCoverPlateSmallHoleSeparation[1], | |
6827 | 2.*fgkEndCapCoverPlateSmallHoleSeparation[0] | |
6828 | + fgkEndCapCoverPlateSmallHoleSeparation[1]}; | |
6829 | const Int_t kendcapcoverplatescrewnumber[2] = {4,9}; | |
6830 | // TGeoTranslation** endcapcoverplatescrewtrans[kendcapcoverplatescrewnumber[0]]; | |
6831 | TGeoTranslation*** endcapcoverplatescrewtrans; | |
6832 | endcapcoverplatescrewtrans = new TGeoTranslation**[kendcapcoverplatescrewnumber[0]]; | |
6833 | Int_t index = 0; | |
6834 | for(Int_t i=0; i<kendcapcoverplatescrewnumber[0]; i++){ | |
6835 | endcapcoverplatescrewtrans[i] = | |
6836 | new TGeoTranslation*[kendcapcoverplatescrewnumber[1]]; | |
6837 | for(Int_t j=0; j<kendcapcoverplatescrewnumber[1]; j++){ | |
6838 | index = kendcapcoverplatescrewnumber[1]*i+j+1; | |
6839 | if(index==1||index==9||index==28||index==36){ | |
6840 | endcapcoverplatescrewtrans[i][j] = | |
6841 | new TGeoTranslation(transx[i], | |
6842 | j*fgkEndCapCoverPlateSmallHoleSeparation[2], | |
6843 | fgkEndCapSideCoverThickness); | |
6844 | } | |
6845 | else{ | |
6846 | endcapcoverplatescrewtrans[i][j] = | |
6847 | new TGeoTranslation(transx[i], | |
6848 | j*fgkEndCapCoverPlateSmallHoleSeparation[2], | |
6849 | 0.); | |
6850 | } | |
6851 | if(index!=19) | |
6852 | for(Int_t k=0; k<4; k++) endcapassembly[k]->AddNode(screwcoverplate,index, | |
6853 | endcapcoverplatescrewtrans[i][j]); | |
6854 | } | |
6855 | } | |
6856 | ///////////////////////////////////////////////////// | |
6857 | // Placing Cover Plate Clips | |
6858 | ///////////////////////////////////////////////////// | |
6859 | TGeoBBox* endcapcoverplateclipshape = new TGeoBBox(0.5*fgkEndCapCoverPlateClipLength, | |
6860 | 0.5*fgkEndCapCoverPlateClipWidth, | |
6861 | 0.5*fgkEndCapSideCoverThickness); | |
6862 | TGeoVolume* endcapcoverplateclip = new TGeoVolume("EndCapCoverPlateUpClip", | |
6863 | endcapcoverplateclipshape, | |
6864 | fSSDCoolingTubePhynox); | |
6865 | TGeoBBox* endcapcoverplatedownclipshape = new TGeoBBox(0.5*fgkEndCapCoverPlateDownClipLength, | |
6866 | 0.5*fgkEndCapCoverPlateDownClipWidth, | |
6867 | 0.5*fgkEndCapSideCoverThickness); | |
6868 | TGeoVolume* endcapcoverplatedownclip = new TGeoVolume("EndCapCoverPlateDownClip", | |
6869 | endcapcoverplatedownclipshape, | |
6870 | fSSDCoolingTubePhynox); | |
6871 | TGeoTranslation* endcapcoverplatecliptrans[4]; | |
6872 | endcapcoverplatecliptrans[0] = new TGeoTranslation(0.5*fgkEndCapCoverPlateClipLength | |
6873 | - fgkEndCapCoverPlateLength[0] | |
6874 | - fgkEndCapSideCoverThickness, | |
6875 | 0.0, | |
6876 | 0.5*(fgkEndCapSideCoverThickness | |
6877 | + fgkEndCapCoverPlateThickness)); | |
6878 | endcapcoverplatecliptrans[1] = new TGeoTranslation(0.5*fgkEndCapCoverPlateClipLength | |
6879 | - fgkEndCapCoverPlateLength[0] | |
6880 | - fgkEndCapSideCoverThickness, | |
6881 | (kendcapcoverplatescrewnumber[1]-1) | |
6882 | * fgkEndCapSideCoverWidth[5], | |
6883 | 0.5*(fgkEndCapSideCoverThickness | |
6884 | + fgkEndCapCoverPlateThickness)); | |
6885 | endcapcoverplatecliptrans[2] = new TGeoTranslation(0.5*fgkEndCapCoverPlateClipLength | |
6886 | - fgkEndCapCoverPlateLength[0] | |
6887 | + fgkEndCapCoverPlateLength[1] | |
6888 | + 2.*fgkEndCapCoverPlateLength[0] | |
6889 | - fgkEndCapCoverPlateClipLength | |
6890 | + fgkEndCapSideCoverThickness, | |
6891 | 0.0, | |
6892 | 0.5*(fgkEndCapSideCoverThickness | |
6893 | + fgkEndCapCoverPlateThickness)); | |
6894 | endcapcoverplatecliptrans[3] = new TGeoTranslation(0.5*fgkEndCapCoverPlateClipLength | |
6895 | - fgkEndCapCoverPlateLength[0] | |
6896 | + fgkEndCapCoverPlateLength[1] | |
6897 | + 2.*fgkEndCapCoverPlateLength[0] | |
6898 | - fgkEndCapCoverPlateClipLength | |
6899 | + fgkEndCapSideCoverThickness, | |
6900 | (kendcapcoverplatescrewnumber[1]-1) | |
6901 | * fgkEndCapSideCoverWidth[5], | |
6902 | 0.5*(fgkEndCapSideCoverThickness | |
6903 | + fgkEndCapCoverPlateThickness)); | |
6904 | endcapcoverplateclip->SetLineColor(fColorPhynox); | |
6905 | endcapcoverplatedownclip->SetLineColor(fColorPhynox); | |
6906 | for(Int_t i=0; i<4; i++) | |
6907 | for(Int_t j=0; j<4; j++) endcapassembly[j]->AddNode(endcapcoverplateclip,i+1, | |
6908 | endcapcoverplatecliptrans[i]); | |
6909 | TGeoTranslation* endcapcoverplatedowncliptrans[4]; | |
6910 | endcapcoverplatedowncliptrans[0] = new TGeoTranslation(0.5*fgkEndCapCoverPlateDownClipLength | |
6911 | - fgkEndCapCoverPlateLength[0] | |
6912 | - fgkEndCapSideCoverThickness, | |
6913 | 0.5*(fgkEndCapCoverPlateDownClipWidth | |
6914 | - fgkEndCapCoverPlateClipWidth), | |
6915 | 0.5*(fgkEndCapSideCoverThickness | |
6916 | + fgkEndCapCoverPlateThickness) | |
6917 | - fgkEndCapSideCoverWidth[1] | |
6918 | - fgkEndCapSideCoverThickness); | |
6919 | endcapcoverplatedowncliptrans[1] = new TGeoTranslation(0.5*fgkEndCapCoverPlateDownClipLength | |
6920 | - fgkEndCapCoverPlateLength[0] | |
6921 | - fgkEndCapSideCoverThickness, | |
6922 | 0.5*(fgkEndCapCoverPlateDownClipWidth | |
6923 | - fgkEndCapCoverPlateClipWidth) | |
6924 | + fgkEndCapSideCoverLength[2] | |
6925 | - fgkEndCapCoverPlateDownClipWidth, | |
6926 | 0.5*(fgkEndCapSideCoverThickness | |
6927 | + fgkEndCapCoverPlateThickness) | |
6928 | - fgkEndCapSideCoverWidth[1] | |
6929 | - fgkEndCapSideCoverThickness); | |
6930 | endcapcoverplatedowncliptrans[2] = new TGeoTranslation(0.5*fgkEndCapCoverPlateDownClipLength | |
6931 | - fgkEndCapCoverPlateLength[0] | |
6932 | + fgkEndCapSideCoverThickness | |
6933 | + fgkEndCapCoverPlateLength[1] | |
6934 | + 2.0*fgkEndCapCoverPlateLength[0] | |
6935 | - fgkEndCapCoverPlateDownClipLength, | |
6936 | 0.5*(fgkEndCapCoverPlateDownClipWidth | |
6937 | - fgkEndCapCoverPlateClipWidth), | |
6938 | 0.5*(fgkEndCapSideCoverThickness | |
6939 | + fgkEndCapCoverPlateThickness) | |
6940 | - fgkEndCapSideCoverWidth[1] | |
6941 | - fgkEndCapSideCoverThickness); | |
6942 | endcapcoverplatedowncliptrans[3] = new TGeoTranslation(0.5*fgkEndCapCoverPlateDownClipLength | |
6943 | - fgkEndCapCoverPlateLength[0] | |
6944 | + fgkEndCapSideCoverThickness | |
6945 | + fgkEndCapCoverPlateLength[1] | |
6946 | + 2.0*fgkEndCapCoverPlateLength[0] | |
6947 | - fgkEndCapCoverPlateDownClipLength, | |
6948 | 0.5*(fgkEndCapCoverPlateDownClipWidth | |
6949 | - fgkEndCapCoverPlateClipWidth) | |
6950 | + fgkEndCapSideCoverLength[2] | |
6951 | - fgkEndCapCoverPlateDownClipWidth, | |
6952 | 0.5*(fgkEndCapSideCoverThickness | |
6953 | + fgkEndCapCoverPlateThickness) | |
6954 | - fgkEndCapSideCoverWidth[1] | |
6955 | - fgkEndCapSideCoverThickness); | |
6956 | for(Int_t i=0; i<4; i++) | |
6957 | for(Int_t k=0; k<4; k++) endcapassembly[k]->AddNode(endcapcoverplatedownclip,i+1, | |
6958 | endcapcoverplatedowncliptrans[i]); | |
6959 | ///////////////////////////////////////////////////// | |
6960 | // Placing Kapton Foil | |
6961 | ///////////////////////////////////////////////////// | |
6962 | TGeoBBox* endcapkaptonfoilshape = new TGeoBBox(0.5*fgkEndCapKaptonFoilLength, | |
6963 | 0.5*fgkEndCapKaptonFoilWidth, | |
6964 | 0.5*fgkEndCapKaptonFoilThickness); | |
6965 | TGeoVolume* endcapkaptonfoil = new TGeoVolume("EndCapKaptonFoil", | |
6966 | endcapkaptonfoilshape, | |
6967 | fSSDKaptonFlexMedium); | |
6968 | endcapkaptonfoil->SetLineColor(8); | |
6969 | TGeoTranslation* endcapkaptonfoiltrans = new TGeoTranslation(0.5*fgkEndCapCoverPlateLength[1], | |
6970 | 0.5*fgkEndCapKaptonFoilWidth | |
6971 | - 0.5*fgkEndCapCoverPlateClipWidth, | |
6972 | 0.5*fgkEndCapCoverPlateThickness | |
6973 | - 0.5*fgkEndCapKaptonFoilThickness | |
6974 | - fgkEndCapSideCoverWidth[1] | |
6975 | - fgkEndCapSideCoverThickness); | |
6976 | for(Int_t i=0; i<4; i++) endcapassembly[i]->AddNode(endcapkaptonfoil,1,endcapkaptonfoiltrans); | |
6977 | ///////////////////////////////////////////////////////////// | |
6978 | // Placing Electronic Tubes | |
6979 | ///////////////////////////////////////////////////////////// | |
6980 | Double_t endcapeffectivecableswidth[2] = {fgkEndCapKaptonFoilWidth | |
6981 | - fgkEndCapInterfaceCardBThickness | |
6982 | - 9.*fgkEndCapStripConnectionThickness | |
6983 | - 8.*fgkEndCapCardElectBoardBackThickness, | |
6984 | fgkEndCapKaptonFoilWidth | |
6985 | - fgkEndCapInterfaceCardBThickness | |
6986 | - 9.*fgkEndCapStripConnectionThickness | |
6987 | - 8.*fgkEndCapCardElectBoardBackThickness | |
6988 | - fgkEndCapInterfaceElectBoardCardBThickness}; | |
6989 | TGeoVolume* endcapeffectivecables[2]; | |
6990 | endcapeffectivecables[0] = GetEndCapEffectiveCables(fgkEndCapEffectiveCableRadiusMin, | |
6991 | fgkEndCapEffectiveCableRadiusMax, | |
6992 | endcapeffectivecableswidth[0], | |
6993 | 10,"EndCapEffectiveCables1"); | |
6994 | endcapeffectivecables[1] = GetEndCapEffectiveCables(fgkEndCapEffectiveCableRadiusMin, | |
6995 | fgkEndCapEffectiveCableRadiusMax, | |
6996 | endcapeffectivecableswidth[1], | |
6997 | 25,"EndCapEffectiveCables2"); | |
6998 | TGeoRotation* endcapeffectivecablesrot = new TGeoRotation(); | |
6999 | TGeoTranslation* endcapeffectivecablestrans[2]; | |
7000 | endcapeffectivecablestrans[0] = new TGeoTranslation(0.5*fgkEndCapCoverPlateLength[1], | |
7001 | - 0.5*endcapeffectivecableswidth[0] | |
7002 | - 0.5*(fgkEndCapCoverPlateWidth[0] | |
7003 | - fgkEndCapCoverPlateWidth[2] | |
7004 | - (kendcapcoverplatesmallholenumber-1) | |
7005 | * fgkEndCapCoverPlateSmallHoleSeparation[2]) | |
7006 | + fgkEndCapSideCoverLength[2], | |
7007 | - 0.5*fgkEndCapCoverPlateThickness | |
7008 | - (fgkEndCapCardElectBoardBackWidth[0] | |
7009 | - fgkEndCapInterfaceCardBWidth[0] | |
7010 | - fgkEndCapInterfaceCardBWidth[1])); | |
7011 | endcapeffectivecablestrans[1] = new TGeoTranslation(0.5*fgkEndCapCoverPlateLength[1], | |
7012 | - 0.5*endcapeffectivecableswidth[1] | |
7013 | - 0.5*(fgkEndCapCoverPlateWidth[0] | |
7014 | - fgkEndCapCoverPlateWidth[2] | |
7015 | - (kendcapcoverplatesmallholenumber-1) | |
7016 | * fgkEndCapCoverPlateSmallHoleSeparation[2]) | |
7017 | + fgkEndCapSideCoverLength[2], | |
7018 | - 0.5*fgkEndCapCoverPlateThickness | |
7019 | - (fgkEndCapCardElectBoardBackWidth[0] | |
7020 | - fgkEndCapInterfaceCardBWidth[0]) | |
7021 | - 0.5*fgkEndCapInterfaceCardBWidth[2]); | |
7022 | endcapeffectivecablesrot->SetAngles(0.,90.,0.); | |
7023 | TGeoCombiTrans* endcapeffectivecablescombitrans[2]; | |
7024 | endcapeffectivecablescombitrans[0] = new TGeoCombiTrans(*endcapeffectivecablestrans[0], | |
7025 | *endcapeffectivecablesrot); | |
7026 | endcapeffectivecablescombitrans[1] = new TGeoCombiTrans(*endcapeffectivecablestrans[1], | |
7027 | *endcapeffectivecablesrot); | |
7028 | // for(Int_t i=0; i<4; i++) endcapassembly[i]->AddNode(endcapeffectivecables[0],1, | |
7029 | // endcapeffectivecablescombitrans[0]); | |
7030 | for(Int_t i=0; i<4; i++) endcapassembly[i]->AddNode(endcapeffectivecables[1],1, | |
7031 | endcapeffectivecablescombitrans[1]); | |
7032 | ///////////////////////////////////////////////////////////// | |
7033 | // Placing End Cap Cards | |
7034 | ///////////////////////////////////////////////////////////// | |
7035 | TGeoVolume** endcapcards = GetEndCapCards(); | |
7036 | TGeoRotation* endcapcardsrot[2]; | |
7037 | for(Int_t i=0; i<2; i++) endcapcardsrot[i] = new TGeoRotation(); | |
7038 | endcapcardsrot[0]->SetAngles(90.,0.,0.); | |
7039 | TGeoTranslation* endcapcardstrans[2]; | |
7040 | endcapcardstrans[0] = new TGeoTranslation(0.,0.,0.5*(fgkEndCapInterfaceCardBLength[1] | |
7041 | - fgkEndCapCardElectBoardBackLength[0])); | |
7042 | TGeoCombiTrans* endcapcardscombitrans = new TGeoCombiTrans(*endcapcardstrans[0],*endcapcardsrot[0]); | |
7043 | endcapcardsrot[1]->SetAngles(90.,90.,-90.); | |
7044 | TGeoHMatrix* endcapcardsmatrix[2]; | |
7045 | endcapcardsmatrix[0] = new TGeoHMatrix((*endcapcardsrot[1])*(*endcapcardscombitrans)); | |
7046 | Double_t stiffenertransx = fgkEndCapKaptonFoilWidth-fgkEndCapStiffenerWidth | |
7047 | - fgkEndCapCardJMDConnectorLength[0] | |
7048 | - fgkEndCapInterfaceCardBThickness | |
7049 | - 9.*fgkEndCapStripConnectionThickness | |
7050 | - 8.*fgkEndCapCardElectBoardBackThickness; | |
7051 | endcapcardstrans[1] = new TGeoTranslation(-0.5*fgkEndCapStiffenerLength | |
7052 | - fgkEndCapCoverPlateLength[0] | |
7053 | + 0.5 * (fgkEndCapCoverPlateLength[3] | |
7054 | + 2.0 * fgkEndCapCoverPlateLength[2]), | |
7055 | - stiffenertransx-fgkEndCapStiffenerWidth | |
7056 | - fgkEndCapCardJMDConnectorLength[0] | |
7057 | - fgkEndCapInterfaceCardBThickness | |
7058 | - 2.0 * fgkEndCapStripConnectionThickness | |
7059 | - 1.5 * fgkEndCapInterfaceCardBThickness | |
7060 | - 0.5 * (fgkEndCapCoverPlateWidth[0] | |
7061 | - fgkEndCapCoverPlateWidth[2] | |
7062 | - (kendcapcoverplatesmallholenumber-1) | |
7063 | * fgkEndCapCoverPlateSmallHoleSeparation[2]) | |
7064 | + fgkEndCapKaptonFoilWidth, | |
7065 | 0.5*fgkEndCapCoverPlateThickness | |
7066 | - fgkEndCapSideCoverWidth[1]); | |
7067 | endcapcardsmatrix[1] = new TGeoHMatrix((*endcapcardstrans[1])*(*endcapcardsmatrix[0])); | |
7068 | for(Int_t i=0; i<4; i++) endcapassembly[i]->AddNode(endcapcards[i],1,endcapcardsmatrix[1]); | |
7069 | ///////////////////////////////////////////////////////////// | |
7070 | // Deallocating memory | |
7071 | ///////////////////////////////////////////////////////////// | |
7072 | delete endcapcoverplaterot; | |
7073 | delete endcapcoverplatecombitrans; | |
7074 | delete endcapcoverplatetrans; | |
7075 | for(Int_t i=0; i<3; i++){ | |
7076 | delete endcapsidecovercombitrans[i]; | |
7077 | if(i<2) delete endcapsidecoverot[i]; | |
7078 | } | |
7079 | for(Int_t i=0; i<2; i++) delete endcapcardsrot[i]; | |
7080 | for(Int_t i=0; i<2; i++) delete endcapcardstrans[i]; | |
7081 | delete endcapcardsmatrix[0]; | |
7082 | return endcapassembly; | |
7083 | } | |
7084 | //////////////////////////////////////////////////////////////////////////////// | |
7085 | TGeoVolume* AliITSv11GeometrySSD::GetEndCapEffectiveCables(Double_t radiusmin, | |
7086 | Double_t radiusmax, | |
7087 | Double_t width, | |
7088 | Int_t ncables, | |
7089 | const char* volname){ | |
7090 | ///////////////////////////////////////////////////////////// | |
7091 | // Generating EndCap High Voltage Tubes | |
7092 | ///////////////////////////////////////////////////////////// | |
7093 | Double_t effectiveinneradius = TMath::Sqrt(ncables)*radiusmin; | |
7094 | Double_t effectiveouteradius = TMath::Sqrt(effectiveinneradius*effectiveinneradius+(radiusmax-radiusmin)*(radiusmax-radiusmin)); | |
7095 | ||
7096 | TGeoTube* effectiveinnertubeshape = new TGeoTube(0.,effectiveinneradius,0.5*width); | |
7097 | TGeoTube* effectiveoutertubeshape = new TGeoTube(effectiveinneradius, | |
7098 | effectiveouteradius,0.5*width); | |
7099 | TGeoVolume* effectiveinnertube = new TGeoVolume("EffectiveEndCapInnerTube", | |
7100 | effectiveinnertubeshape, | |
7101 | fSSDStiffenerConnectorMedium); | |
7102 | effectiveinnertube->SetLineColor(41); | |
7103 | TGeoVolume* effectiveoutertube = new TGeoVolume("EffectiveEndCapOuterTube", | |
7104 | effectiveoutertubeshape, | |
7105 | fSSDKaptonChipCableMedium); | |
7106 | effectiveoutertube->SetLineColor(39); | |
7107 | TGeoTube* effectivemothertubeshape = new TGeoTube(0.,effectiveouteradius,0.5*width); | |
7108 | TGeoVolume* effectivemothertube = new TGeoVolume(volname,effectivemothertubeshape,fSSDAir); | |
7109 | effectivemothertube->AddNode(effectiveinnertube,1); | |
7110 | effectivemothertube->AddNode(effectiveoutertube,1); | |
7111 | return effectivemothertube; | |
7112 | } | |
7113 | //////////////////////////////////////////////////////////////////////////////// | |
7114 | TGeoVolume** AliITSv11GeometrySSD::EndCapSupport(){ | |
7115 | ///////////////////////////////////////////////////////////// | |
7116 | // Generating EndCap Support Layer 5 and Layer 6 | |
7117 | ///////////////////////////////////////////////////////////// | |
7118 | const Int_t knedges = 5; | |
7119 | /////////////////////////////////////////////// | |
7120 | // Setting the vertices for TGeoXtru Up Volume | |
7121 | /////////////////////////////////////////////// | |
7122 | const Int_t klayernumber = 2; | |
7123 | Double_t xupvertex[klayernumber][knedges+3]; | |
7124 | Double_t yupvertex[klayernumber][knedges+3]; | |
7125 | Double_t upedgeangle[klayernumber] = {360./fgkSSDLay5LadderNumber,360./fgkSSDLay6LadderNumber}; | |
7126 | Double_t middledgeangle[klayernumber] = {0.0,0.0}; | |
7127 | Double_t middlepsi[klayernumber] = {0.0,0.0}; | |
7128 | for(Int_t i=0; i<klayernumber; i++){ | |
7129 | xupvertex[i][0] = -fgkEndCapSupportMiddleRadius[i]*SinD(0.5*upedgeangle[i]); | |
7130 | xupvertex[i][1] = -0.5*fgkEndCapSupportLength[i]; | |
7131 | xupvertex[i][2] = -xupvertex[i][1]; | |
7132 | xupvertex[i][3] = -xupvertex[i][0]; | |
7133 | ||
7134 | yupvertex[i][0] = fgkEndCapSupportMiddleRadius[i]*CosD(0.5*upedgeangle[i]); | |
7135 | yupvertex[i][1] = 0.5*fgkEndCapSupportLength[i]/TanD(0.5*upedgeangle[i]); | |
7136 | yupvertex[i][2] = yupvertex[i][1]; | |
7137 | yupvertex[i][3] = yupvertex[i][0]; | |
7138 | ||
7139 | middledgeangle[i] = upedgeangle[i]/knedges; | |
7140 | middlepsi[i] = 90.0-0.5*upedgeangle[i]; | |
7141 | for(Int_t j=1; j<knedges; j++){ | |
7142 | xupvertex[i][j+3] = fgkEndCapSupportMiddleRadius[i]*CosD(middlepsi[i]+j*middledgeangle[i]); | |
7143 | yupvertex[i][j+3] = fgkEndCapSupportMiddleRadius[i]*SinD(middlepsi[i]+j*middledgeangle[i]); | |
7144 | } | |
7145 | } | |
7146 | //////////////////////////////////// | |
7147 | // Generating Up TGeoXtru | |
7148 | //////////////////////////////////// | |
7149 | TGeoXtru* upendcapsupportshape[klayernumber]; | |
7150 | TGeoVolume* upendcapsupport[klayernumber]; | |
7151 | char upendcapsupportname[100]; | |
7152 | for(Int_t i=0; i<klayernumber; i++){ | |
7153 | upendcapsupportshape[i] = new TGeoXtru(2); | |
7154 | sprintf(upendcapsupportname,"UpEndCapSupportPieceLayer%i",i+5); | |
7155 | upendcapsupportshape[i]->DefinePolygon(knedges+3,xupvertex[i],yupvertex[i]); | |
7156 | upendcapsupportshape[i]->DefineSection(0,0.); | |
7157 | upendcapsupportshape[i]->DefineSection(1,fgkEndCapSupportHighWidth); | |
7158 | upendcapsupport[i] = new TGeoVolume(upendcapsupportname,upendcapsupportshape[i], | |
7159 | fSSDSupportRingAl); | |
7160 | upendcapsupport[i]->SetLineColor(5); | |
7161 | } | |
7162 | /////////////////////////////////////////////// | |
7163 | // Setting the vertices for TGeoXtru Down Volume | |
7164 | /////////////////////////////////////////////// | |
7165 | Double_t xdownvertex[klayernumber][2*(knedges+1)]; | |
7166 | Double_t ydownvertex[klayernumber][2*(knedges+1)]; | |
7167 | for(Int_t i=0; i<klayernumber; i++){ | |
7168 | xdownvertex[i][0] = -fgkEndCapSupportLowRadius[i]*SinD(0.5*upedgeangle[i]); | |
7169 | xdownvertex[i][1] = xupvertex[i][0]; | |
7170 | ydownvertex[i][0] = fgkEndCapSupportLowRadius[i]*CosD(0.5*upedgeangle[i]); | |
7171 | ydownvertex[i][1] = yupvertex[i][0]; | |
7172 | for(Int_t j=0; j<knedges; j++){ | |
7173 | xdownvertex[i][j+2] = xupvertex[i][knedges+2-j]; | |
7174 | ydownvertex[i][j+2] = yupvertex[i][knedges+2-j]; | |
7175 | } | |
7176 | for(Int_t j=0; j<knedges; j++){ | |
7177 | xdownvertex[i][knedges+j+2] = fgkEndCapSupportLowRadius[i] | |
7178 | * CosD(middlepsi[i]+j*middledgeangle[i]); | |
7179 | ydownvertex[i][knedges+j+2] = fgkEndCapSupportLowRadius[i] | |
7180 | * SinD(middlepsi[i]+j*middledgeangle[i]); | |
7181 | } | |
7182 | } | |
7183 | //////////////////////////////////// | |
7184 | // Generating Down TGeoXtru | |
7185 | //////////////////////////////////// | |
7186 | TGeoXtru* downendcapsupportshape[klayernumber]; | |
7187 | TGeoVolume* downendcapsupport[klayernumber]; | |
7188 | char downendcapsupportname[100]; | |
7189 | for(Int_t i=0; i<klayernumber; i++){ | |
7190 | downendcapsupportshape[i] = new TGeoXtru(2); | |
7191 | sprintf(downendcapsupportname,"DownEndCapSupportPieceLayer%i",i+5); | |
7192 | downendcapsupportshape[i] = new TGeoXtru(2); | |
7193 | downendcapsupportshape[i]->DefinePolygon(2*(knedges+1),xdownvertex[i],ydownvertex[i]); | |
7194 | if(i==0){ | |
7195 | downendcapsupportshape[i]->DefineSection(0,0.); | |
7196 | downendcapsupportshape[i]->DefineSection(1,fgkEndCapSupportLowWidth[i]); | |
7197 | } | |
7198 | else{ | |
7199 | downendcapsupportshape[i]->DefineSection(0,fgkEndCapSupportHighWidth | |
7200 | - fgkEndCapSupportLowWidth[i]); | |
7201 | downendcapsupportshape[i]->DefineSection(1,fgkEndCapSupportHighWidth); | |
7202 | } | |
7203 | downendcapsupport[i] = new TGeoVolume(downendcapsupportname, | |
7204 | downendcapsupportshape[i],fSSDSupportRingAl); | |
7205 | downendcapsupport[i]->SetLineColor(5); | |
7206 | } | |
7207 | /////////////////////////////////////////////// | |
7208 | // Setting TGeoPgon Volume | |
7209 | /////////////////////////////////////////////// | |
7210 | const Int_t kssdlayladdernumber[klayernumber] = {fgkSSDLay5LadderNumber, | |
7211 | fgkSSDLay6LadderNumber}; | |
7212 | TGeoPgon* endcapsupportmothershape[klayernumber]; | |
7213 | TGeoVolume** endcapsupportmother; | |
7214 | endcapsupportmother = new TGeoVolume*[klayernumber]; | |
7215 | char endcapsupportmothername[100]; | |
7216 | for(Int_t i=0; i<klayernumber; i++){ | |
7217 | endcapsupportmothershape[i] = new TGeoPgon(0.0,360.0,kssdlayladdernumber[i],2); | |
7218 | sprintf(endcapsupportmothername,"EndCapSupportMotherLayer%i",i+5); | |
7219 | endcapsupportmothershape[i]->DefineSection(0,0.,ydownvertex[i][0],yupvertex[i][1]); | |
7220 | endcapsupportmothershape[i]->DefineSection(1,fgkEndCapSupportHighWidth, | |
7221 | ydownvertex[i][0],yupvertex[i][1]); | |
7222 | endcapsupportmother[i] = new TGeoVolume(endcapsupportmothername,endcapsupportmothershape[i], | |
7223 | fSSDAir); | |
7224 | } | |
7225 | //////////////////////////////////// | |
7226 | TGeoRotation** endcapsupportrot[klayernumber]; | |
7227 | for(Int_t i=0; i<2; i++){ | |
7228 | endcapsupportrot[i] = new TGeoRotation*[kssdlayladdernumber[i]]; | |
7229 | for(Int_t j=0; j<kssdlayladdernumber[i]; j++){ | |
7230 | endcapsupportrot[i][j] = new TGeoRotation(); | |
7231 | endcapsupportrot[i][j]->SetAngles(j*upedgeangle[i],0.,0.); | |
7232 | endcapsupportmother[i]->AddNode(upendcapsupport[i],j+1,endcapsupportrot[i][j]); | |
7233 | endcapsupportmother[i]->AddNode(downendcapsupport[i],j+1,endcapsupportrot[i][j]); | |
7234 | } | |
7235 | } | |
7236 | return endcapsupportmother; | |
7237 | } | |
7238 | //////////////////////////////////////////////////////////////////////////////// | |
7239 | void AliITSv11GeometrySSD::SetEndCapSupportAssembly(){ | |
7240 | ///////////////////////////////////////////////////////////// | |
7241 | // Setting End Cap Support Layer 5 and 6. | |
7242 | ///////////////////////////////////////////////////////////// | |
7243 | const Int_t kendcapcoverplatesmallholenumber = 9; | |
7244 | const Int_t klayernumber = 2; | |
7245 | const Int_t kssdlayladdernumber[klayernumber] = {fgkSSDLay5LadderNumber, | |
7246 | fgkSSDLay6LadderNumber}; | |
7247 | Double_t upedgeangle[klayernumber] = {360.0/kssdlayladdernumber[0], | |
7248 | 360.0/kssdlayladdernumber[1]}; | |
7249 | TGeoVolume** endcapsupport = EndCapSupport(); | |
7250 | TGeoVolume** endcapassembly = GetEndCapAssembly(); | |
7251 | TGeoPgon* endcapsupportshape[klayernumber]; | |
7252 | Double_t* radiusmin[klayernumber]; | |
7253 | Double_t* radiusmax[klayernumber]; | |
7254 | for(Int_t i=0; i<klayernumber; i++){ | |
7255 | endcapsupportshape[i] = (TGeoPgon*)endcapsupport[i]->GetShape(); | |
7256 | radiusmin[i] = endcapsupportshape[i]->GetRmin(); | |
7257 | radiusmax[i] = endcapsupportshape[i]->GetRmax(); | |
7258 | } | |
7259 | TGeoBBox* endcapassemblyshape = (TGeoBBox*)endcapassembly[0]->GetShape(); | |
7260 | Double_t endcapassemblycenter[3] = {endcapassemblyshape->GetDX(), | |
7261 | endcapassemblyshape->GetDY(), | |
7262 | endcapassemblyshape->GetDZ()}; | |
7263 | /////////////////////////////////////////////// | |
7264 | // Setting TGeoPgon Volume for Mother Container | |
7265 | /////////////////////////////////////////////// | |
7266 | TGeoPgon* endcapsupportsystemshape[klayernumber]; | |
7267 | char endcapsupportsystemothername[100]; | |
7268 | for(Int_t i=0; i<klayernumber; i++){ | |
7269 | endcapsupportsystemshape[i] = new TGeoPgon(0.0,360.0,kssdlayladdernumber[i],2); | |
7270 | sprintf(endcapsupportsystemothername,"EndCapSupportSystemLayer%i",i+5); | |
7271 | endcapsupportsystemshape[i]->DefineSection(0,-(fgkEndCapCoverPlateWidth[1] | |
7272 | - fgkEndCapCoverPlateWidth[0]),*radiusmin[i], | |
7273 | (*radiusmax[i]*CosD(0.5*upedgeangle[i]) | |
7274 | +2.*endcapassemblycenter[2]) | |
7275 | /CosD(0.5*upedgeangle[i])); | |
7276 | endcapsupportsystemshape[i]->DefineSection(1,2.*endcapassemblycenter[1] | |
7277 | -(fgkEndCapCoverPlateWidth[1] | |
7278 | - fgkEndCapCoverPlateWidth[0]), | |
7279 | *radiusmin[i], | |
7280 | (*radiusmax[i]*CosD(0.5*upedgeangle[i]) | |
7281 | +2.*endcapassemblycenter[2]) | |
7282 | /CosD(0.5*upedgeangle[i])); | |
7283 | } | |
7284 | fgkEndCapSupportSystem = new TGeoVolume*[4]; | |
7285 | fgkEndCapSupportSystem[0] = new TGeoVolume("EndCapSupportSystemLayer5Sx", | |
7286 | endcapsupportsystemshape[0],fSSDAir); | |
7287 | fgkEndCapSupportSystem[1] = new TGeoVolume("EndCapSupportSystemLayer5Dx", | |
7288 | endcapsupportsystemshape[0],fSSDAir); | |
7289 | fgkEndCapSupportSystem[2] = new TGeoVolume("EndCapSupportSystemLayer6Sx", | |
7290 | endcapsupportsystemshape[1],fSSDAir); | |
7291 | fgkEndCapSupportSystem[3] = new TGeoVolume("EndCapSupportSystemLayer6Dx", | |
7292 | endcapsupportsystemshape[1],fSSDAir); | |
7293 | /////////////////////////////////////////////// | |
7294 | TGeoTranslation* endcapassemblytrans[klayernumber]; | |
7295 | for(Int_t i=0; i<klayernumber; i++) | |
7296 | endcapassemblytrans[i] = new TGeoTranslation(-fgkEndCapCoverPlateLength[0] | |
7297 | - fgkEndCapSideCoverThickness | |
7298 | + endcapassemblycenter[0], | |
7299 | - 0.5*fgkEndCapCoverPlateThickness | |
7300 | - 2.0*fgkEndCapCoolingTubeRadiusMax | |
7301 | + 2.0*endcapassemblycenter[2] | |
7302 | + 0.5*fgkEndCapSupportLength[i] | |
7303 | / TanD(0.5*upedgeangle[i]), | |
7304 | 0.5*(fgkEndCapCoverPlateWidth[0] | |
7305 | - fgkEndCapCoverPlateWidth[2] | |
7306 | - (kendcapcoverplatesmallholenumber-1) | |
7307 | * fgkEndCapCoverPlateSmallHoleSeparation[2])); | |
7308 | TGeoRotation** endcapassemblyrot[klayernumber]; | |
7309 | TGeoHMatrix** endcapassemblymatrix[klayernumber]; | |
7310 | for(Int_t i=0; i<klayernumber; i++){ | |
7311 | endcapassemblyrot[i] = new TGeoRotation*[kssdlayladdernumber[i]+2]; | |
7312 | endcapassemblymatrix[i] = new TGeoHMatrix*[kssdlayladdernumber[i]+2]; | |
7313 | for(Int_t j=0; j<kssdlayladdernumber[i]+2; j++) endcapassemblyrot[i][j] = new TGeoRotation(); | |
7314 | endcapassemblyrot[i][0]->SetAngles(0.,-90.,0.); | |
7315 | endcapassemblyrot[i][1]->SetAngles(90.,180.,-90.); | |
7316 | endcapassemblymatrix[i][0] = new TGeoHMatrix((*endcapassemblyrot[i][1])*(*endcapassemblyrot[i][0])); | |
7317 | endcapassemblymatrix[i][1] = new TGeoHMatrix((*endcapassemblytrans[i])*(*endcapassemblymatrix[i][0])); | |
7318 | for(Int_t j=0; j<kssdlayladdernumber[i]; j++){ | |
7319 | endcapassemblyrot[i][j+2]->SetAngles(j*upedgeangle[i],0.,0.); | |
7320 | endcapassemblymatrix[i][j+2] = new TGeoHMatrix((*endcapassemblyrot[i][j+2])*(*endcapassemblymatrix[i][1])); | |
7321 | } | |
7322 | } | |
7323 | TGeoTranslation* lay6endcapassemblytrans = new TGeoTranslation(0.,0., | |
7324 | fgkEndCapKaptonFoilWidth-fgkEndCapSupportHighWidth); | |
7325 | for(Int_t i=0; i<2*klayernumber; i++){ | |
7326 | for(Int_t j=0; j<(i<2? kssdlayladdernumber[0]:kssdlayladdernumber[1]); j++){ | |
7327 | fgkEndCapSupportSystem[i]->AddNode(endcapassembly[i],j+1,i<2?endcapassemblymatrix[0][j+2]: | |
7328 | endcapassemblymatrix[1][j+2]); | |
7329 | } | |
7330 | fgkEndCapSupportSystem[i]->AddNode(i<2?endcapsupport[0]:endcapsupport[1],1,i<2?0:lay6endcapassemblytrans); | |
7331 | } | |
7332 | ///////////////////////////////////////////////////////////// | |
7333 | // Deallocating memory | |
7334 | ///////////////////////////////////////////////////////////// | |
7335 | for(Int_t i=0; i<klayernumber; i++){ | |
7336 | for(Int_t j=0; j<kssdlayladdernumber[i]+2; j++){ | |
7337 | delete endcapassemblyrot[i][j]; | |
7338 | } | |
7339 | delete [] endcapassemblyrot[i]; | |
7340 | delete endcapassemblymatrix[i][0]; | |
7341 | delete endcapassemblymatrix[i][1]; | |
7342 | } | |
7343 | ///////////////////////////////////////////////////////////// | |
7344 | } | |
7345 | void AliITSv11GeometrySSD::EndCapSupportSystemLayer5(TGeoVolume* moth){ | |
7346 | ///////////////////////////////////////////////////////////// | |
7347 | // Setting End Cap Support + End Cap Assembly of Layer 5. | |
7348 | ///////////////////////////////////////////////////////////// | |
7349 | if (! moth) { | |
7350 | AliError("Can't insert end cap support of layer5, mother is null!\n"); | |
7351 | return; | |
7352 | }; | |
7353 | if(!fgkEndCapSupportSystem) SetEndCapSupportAssembly(); | |
7354 | TGeoTranslation* endcapsupportsystemITSCentertrans[2]; | |
7355 | endcapsupportsystemITSCentertrans[0] = new TGeoTranslation(0.,0., | |
7356 | fgkEndCapSupportCenterLay5ITSPosition | |
7357 | + fgkEndCapSupportCenterLay5Position | |
7358 | - fgkEndCapSideCoverLength[2]); | |
7359 | endcapsupportsystemITSCentertrans[1] = new TGeoTranslation(0.,0., | |
7360 | fgkEndCapSideCoverLength[2] | |
7361 | - fgkEndCapSupportCenterLay5Position | |
7362 | - fgkEndCapSupportCenterLay5ITSPosition); | |
7363 | TGeoRotation* endcapsupportsystemrot = new TGeoRotation(); | |
7364 | endcapsupportsystemrot->SetAngles(90.,180.,-90.); | |
7365 | TGeoCombiTrans* endcapsupportsystemITSCentercombitrans = | |
7366 | new TGeoCombiTrans(*endcapsupportsystemITSCentertrans[1],*endcapsupportsystemrot); | |
7367 | moth->AddNode(fgkEndCapSupportSystem[0],1,endcapsupportsystemITSCentertrans[0]); | |
7368 | moth->AddNode(fgkEndCapSupportSystem[1],1,endcapsupportsystemITSCentercombitrans); | |
7369 | ///////////////////////////////////////////////////////////// | |
7370 | // Deallocating memory | |
7371 | ///////////////////////////////////////////////////////////// | |
7372 | delete endcapsupportsystemrot; | |
7373 | delete endcapsupportsystemITSCentertrans[1]; | |
7374 | } | |
7375 | ///////////////////////////////////////////////////////////// | |
7376 | void AliITSv11GeometrySSD::EndCapSupportSystemLayer6(TGeoVolume* moth){ | |
7377 | ///////////////////////////////////////////////////////////// | |
7378 | // Setting End Cap Support + End Cap Assembly of Layer 6. | |
7379 | ///////////////////////////////////////////////////////////// | |
7380 | if (! moth) { | |
7381 | AliError("Can't insert end cap support of layer6, mother is null!\n"); | |
7382 | return; | |
7383 | }; | |
7384 | if(!fgkEndCapSupportSystem) SetEndCapSupportAssembly(); | |
7385 | TGeoTranslation* endcapsupportsystemITSCentertrans[2]; | |
7386 | endcapsupportsystemITSCentertrans[0] = new TGeoTranslation(0.,0., | |
7387 | fgkEndCapSupportCenterLay6ITSPosition | |
7388 | + fgkEndCapSupportCenterLay6Position | |
7389 | - fgkEndCapSideCoverLength[2]); | |
7390 | endcapsupportsystemITSCentertrans[1] = new TGeoTranslation(0.,0., | |
7391 | fgkEndCapSideCoverLength[2] | |
7392 | - fgkEndCapSupportCenterLay6Position | |
7393 | - fgkEndCapSupportCenterLay6ITSPosition); | |
7394 | TGeoRotation* endcapsupportsystemrot = new TGeoRotation(); | |
7395 | endcapsupportsystemrot->SetAngles(90.,180.,-90.); | |
7396 | TGeoCombiTrans* endcapsupportsystemITSCentercombitrans = | |
7397 | new TGeoCombiTrans(*endcapsupportsystemITSCentertrans[1],*endcapsupportsystemrot); | |
7398 | moth->AddNode(fgkEndCapSupportSystem[2],1,endcapsupportsystemITSCentertrans[0]); | |
7399 | moth->AddNode(fgkEndCapSupportSystem[3],1,endcapsupportsystemITSCentercombitrans); | |
7400 | ///////////////////////////////////////////////////////////// | |
7401 | // Deallocating memory | |
7402 | ///////////////////////////////////////////////////////////// | |
7403 | delete endcapsupportsystemrot; | |
7404 | delete endcapsupportsystemITSCentertrans[1]; | |
7405 | } | |
7406 | //////////////////////////////////////////////////////////////////////////////// | |
7407 | void AliITSv11GeometrySSD::LadderSupportLayer5(TGeoVolume* moth){ | |
7408 | ///////////////////////////////////////////////////////////// | |
7409 | // Setting Ladder Support of Layer 5. | |
7410 | ///////////////////////////////////////////////////////////// | |
7411 | if (! moth) { | |
7412 | AliError("Can't insert ladder lupport of layer5, mother is null!\n"); | |
7413 | return; | |
7414 | }; | |
7415 | if(!fLay5LadderSupportRing) SetLadderSupport(100); | |
7416 | fMotherVol = moth; | |
7417 | TGeoTranslation* centerITSRingSupportLay5trans[2]; | |
7418 | for(Int_t i=0; i<2; i++){ | |
7419 | centerITSRingSupportLay5trans[i] = | |
7420 | new TGeoTranslation(0.,0.,TMath::Power(-1.,i)*fgkLadderSupportRingLay5Position); | |
7421 | moth->AddNode(fLay5LadderSupportRing,i+1,centerITSRingSupportLay5trans[i]); | |
7422 | } | |
7423 | } | |
7424 | //////////////////////////////////////////////////////////////////////////////// | |
7425 | void AliITSv11GeometrySSD::LadderSupportLayer6(TGeoVolume* moth){ | |
7426 | ///////////////////////////////////////////////////////////// | |
7427 | // Setting Ladder Support of Layer 6. | |
7428 | ///////////////////////////////////////////////////////////// | |
7429 | if (! moth) { | |
7430 | AliError("Can't insert ladder lupport of layer6, mother is null!\n"); | |
7431 | return; | |
7432 | }; | |
7433 | if(!fLay6LadderSupportRing) SetLadderSupport(100); | |
7434 | fMotherVol = moth; | |
7435 | TGeoTranslation* centerITSRingSupportLay6trans[2]; | |
7436 | for(Int_t i=0; i<2; i++){ | |
7437 | centerITSRingSupportLay6trans[i] = | |
7438 | new TGeoTranslation(0.,0.,TMath::Power(-1.,i)*fgkLadderSupportRingLay6Position); | |
7439 | moth->AddNode(fLay6LadderSupportRing,i+1,centerITSRingSupportLay6trans[i]); | |
7440 | } | |
7441 | } | |
7442 | //////////////////////////////////////////////////////////////////////////////// | |
7443 | void AliITSv11GeometrySSD::SSDCone(TGeoVolume* moth){ | |
7444 | ///////////////////////////////////////////////////////////// | |
7445 | // Setting Ladder Support of Layer 6. | |
7446 | ///////////////////////////////////////////////////////////// | |
7447 | if (! moth) { | |
7448 | AliError("Can't insert SSD Cone, mother is null!\n"); | |
7449 | return; | |
7450 | }; | |
7451 | if(!fSSDCone) SetSSDCone(); | |
7452 | TGeoTranslation* ssdconetrans = new TGeoTranslation(0.,0.,0.5*fgkSSDCentralSupportLength | |
7453 | + fgkSSDCentralAL3SupportLength); | |
7454 | moth->AddNode(fSSDCone,1,ssdconetrans); | |
7455 | } | |
7456 | //////////////////////////////////////////////////////////////////////////////// | |
7457 | void AliITSv11GeometrySSD::SetSSDCone(){ | |
7458 | ///////////////////////////////////////////////////////////// | |
7459 | // Method generating SSDCone | |
7460 | ///////////////////////////////////////////////////////////// | |
7461 | if(!fCreateMaterials) CreateMaterials(); | |
7462 | fSSDCone = new TGeoVolumeAssembly("ITSssdCone"); | |
7463 | Double_t ssdpconesectionradiusmax[16]; | |
7464 | Double_t ssdpconesectionradiusmin[16]; | |
7465 | Double_t ssdpconezsection[16]; | |
7466 | TGeoPcon* ssdpconelittleholeshape[8]; | |
7467 | TGeoVolume* ssdpconelittlehole[8]; | |
7468 | ssdpconezsection[0] = (fgkSSDPConeZLength[0]-fgkSSDPConeZLength[1]); | |
7469 | ssdpconesectionradiusmin[0] = fgkSSDLowerPConeRadius; | |
7470 | ssdpconesectionradiusmax[0] = ssdpconezsection[0]*CosD(fgkSSDPConeAngle) | |
7471 | / SinD(fgkSSDPConeAngle) | |
7472 | + ssdpconesectionradiusmin[0]; | |
7473 | ssdpconesectionradiusmin[1] = fgkSSDPConeLittleHoleRadius | |
7474 | - ssdpconezsection[0]*CosD(fgkSSDPConeAngle) | |
7475 | / SinD(fgkSSDPConeAngle); | |
7476 | ssdpconesectionradiusmax[1] = fgkSSDPConeLittleHoleRadius; | |
7477 | ssdpconezsection[1] = (ssdpconesectionradiusmin[1]-ssdpconesectionradiusmin[0]) | |
7478 | * TanD(fgkSSDPConeAngle)+ssdpconezsection[0]; | |
7479 | ssdpconelittleholeshape[0] = new TGeoPcon(0.,360.,2); | |
7480 | for(Int_t i=0; i<2;i++) ssdpconelittleholeshape[0]->DefineSection(i,ssdpconezsection[i], | |
7481 | ssdpconesectionradiusmin[i],ssdpconesectionradiusmax[i]); | |
7482 | ssdpconelittlehole[0] = new TGeoVolume("SSDConeLittleHole1",ssdpconelittleholeshape[0],fSSDCarbonFiberMedium); | |
7483 | ssdpconelittlehole[0]->SetLineColor(4); | |
7484 | ///////////////////////////////////////////////////////////// | |
7485 | ssdpconezsection[2] = ssdpconezsection[1]; | |
7486 | ssdpconesectionradiusmin[2] = ssdpconesectionradiusmin[1]; | |
7487 | ssdpconesectionradiusmax[2] = ssdpconesectionradiusmax[1]; | |
7488 | ssdpconesectionradiusmin[3] = fgkSSDPConeLittleHoleRadius+fgkSSDPConeLittleHoleLength | |
7489 | - ssdpconezsection[0]*CosD(fgkSSDPConeAngle) | |
7490 | / SinD(fgkSSDPConeAngle); | |
7491 | ssdpconesectionradiusmax[3] = ssdpconezsection[0]*CosD(fgkSSDPConeAngle) | |
7492 | / SinD(fgkSSDPConeAngle)+ssdpconesectionradiusmin[3]; | |
7493 | ssdpconezsection[3] = (ssdpconesectionradiusmin[3]-ssdpconesectionradiusmin[2]) | |
7494 | * TanD(fgkSSDPConeAngle)+ssdpconezsection[2]; | |
7495 | Double_t ssdpconelittleholeangle = fgkSSDPConeLittleHoleLength/fgkSSDPConeLittleHoleRadius | |
7496 | * TMath::RadToDeg(); | |
7497 | ssdpconelittleholeshape[1] = new TGeoPcon(30.+0.5*ssdpconelittleholeangle, | |
7498 | 60.-ssdpconelittleholeangle,2); | |
7499 | for(Int_t i=2;i<4;i++) ssdpconelittleholeshape[1]->DefineSection(i-2,ssdpconezsection[i], | |
7500 | ssdpconesectionradiusmin[i],ssdpconesectionradiusmax[i]); | |
7501 | ssdpconelittlehole[1] = new TGeoVolume("SSDConeLittleHole2",ssdpconelittleholeshape[1],fSSDCarbonFiberMedium); | |
7502 | ssdpconelittlehole[1]->SetLineColor(4); | |
7503 | TGeoRotation* ssdconelittleholerot[6]; | |
7504 | for(Int_t i=0; i<6; i++){ | |
7505 | ssdconelittleholerot[i] = new TGeoRotation(); | |
7506 | ssdconelittleholerot[i]->SetAngles(i*60,0.,0.); | |
7507 | } | |
7508 | ///////////////////////////////////////////////////////////// | |
7509 | ssdpconezsection[4] = ssdpconezsection[3]; | |
7510 | ssdpconesectionradiusmin[4] = ssdpconesectionradiusmin[3]; | |
7511 | ssdpconesectionradiusmax[4] = ssdpconesectionradiusmax[3]; | |
7512 | ssdpconesectionradiusmin[5] = fgkSSDConeMiddleRadius-ssdpconezsection[0] | |
7513 | * CosD(fgkSSDPConeAngle) | |
7514 | / SinD(fgkSSDPConeAngle); | |
7515 | ssdpconesectionradiusmax[5] = fgkSSDConeMiddleRadius; | |
7516 | ssdpconezsection[5] = (ssdpconesectionradiusmin[5]-ssdpconesectionradiusmin[4]) | |
7517 | * TanD(fgkSSDPConeAngle)+ssdpconezsection[4]; | |
7518 | ssdpconelittleholeshape[2] = new TGeoPcon(0.,360.,2); | |
7519 | for(Int_t i=4; i<6;i++) ssdpconelittleholeshape[2]->DefineSection(i-4,ssdpconezsection[i], | |
7520 | ssdpconesectionradiusmin[i],ssdpconesectionradiusmax[i]); | |
7521 | ssdpconelittlehole[2] = new TGeoVolume("SSDConeLittleHole3",ssdpconelittleholeshape[2],fSSDCarbonFiberMedium); | |
7522 | ssdpconelittlehole[2]->SetLineColor(4); | |
7523 | /////////////////////////////////////////////////// | |
7524 | ssdpconezsection[6] = ssdpconezsection[5]; | |
7525 | ssdpconesectionradiusmin[6] = ssdpconesectionradiusmin[5]; | |
7526 | ssdpconesectionradiusmax[6] = ssdpconesectionradiusmax[5]; | |
7527 | ssdpconesectionradiusmin[7] = fgkSSDConeMiddleRadius+fgkSSDPConeMiddleLength | |
7528 | -ssdpconezsection[0] | |
7529 | * CosD(fgkSSDPConeAngle) | |
7530 | / SinD(fgkSSDPConeAngle); | |
7531 | ssdpconesectionradiusmax[7] = fgkSSDConeMiddleRadius+fgkSSDPConeMiddleLength; | |
7532 | ssdpconezsection[7] = (ssdpconesectionradiusmin[7]-ssdpconesectionradiusmin[6]) | |
7533 | * TanD(fgkSSDPConeAngle)+ssdpconezsection[6]; | |
7534 | Double_t ssdpconemiddleholeangle = fgkSSDPConeMiddleWidth/fgkSSDConeMiddleRadius | |
7535 | * TMath::RadToDeg(); | |
7536 | ssdpconelittleholeshape[3] = new TGeoPcon(22.5+0.5*ssdpconemiddleholeangle, | |
7537 | 45.-ssdpconemiddleholeangle,2); | |
7538 | for(Int_t i=6;i<8;i++) ssdpconelittleholeshape[3]->DefineSection(i-6,ssdpconezsection[i], | |
7539 | ssdpconesectionradiusmin[i],ssdpconesectionradiusmax[i]); | |
7540 | ssdpconelittlehole[3] = new TGeoVolume("SSDConeLittleHole4",ssdpconelittleholeshape[3],fSSDCarbonFiberMedium); | |
7541 | ssdpconelittlehole[3]->SetLineColor(4); | |
7542 | TGeoRotation* ssdconemiddleholerot[8]; | |
7543 | for(Int_t i=0; i<8; i++){ | |
7544 | ssdconemiddleholerot[i] = new TGeoRotation(); | |
7545 | ssdconemiddleholerot[i]->SetAngles(i*45,0.,0.); | |
7546 | } | |
7547 | ///////////////////////////////////////////////////////////// | |
7548 | ssdpconezsection[8] = ssdpconezsection[7]; | |
7549 | ssdpconesectionradiusmin[8] = ssdpconesectionradiusmin[7]; | |
7550 | ssdpconesectionradiusmax[8] = ssdpconesectionradiusmax[7]; | |
7551 | ssdpconesectionradiusmin[9] = fgkSSDPConeUpRadius-ssdpconezsection[0] | |
7552 | * CosD(fgkSSDPConeAngle) | |
7553 | / SinD(fgkSSDPConeAngle); | |
7554 | ssdpconesectionradiusmax[9] = fgkSSDPConeUpRadius; | |
7555 | ssdpconezsection[9] = (ssdpconesectionradiusmin[9]-ssdpconesectionradiusmin[8]) | |
7556 | * TanD(fgkSSDPConeAngle)+ssdpconezsection[8]; | |
7557 | ssdpconelittleholeshape[4] = new TGeoPcon(0.,360.,2); | |
7558 | for(Int_t i=8; i<10;i++) ssdpconelittleholeshape[4]->DefineSection(i-8,ssdpconezsection[i], | |
7559 | ssdpconesectionradiusmin[i],ssdpconesectionradiusmax[i]); | |
7560 | ssdpconelittlehole[4] = new TGeoVolume("SSDConeLittleHole5",ssdpconelittleholeshape[4],fSSDCarbonFiberMedium); | |
7561 | ssdpconelittlehole[4]->SetLineColor(4); | |
7562 | ///////////////////////////////////////////////////////////// | |
7563 | Double_t ssdconetrapezoidheight = fgkSSDPConeUpMaxRadius-fgkSSDPConeUpRadius; | |
7564 | Double_t ssdconetrapezoidbasis = fgkSSDPConeTrapezoidBasis-2.0 | |
7565 | * (0.5*ssdconetrapezoidheight/TanD(fgkSSDPConeTrapezoidAngle) | |
7566 | - 0.5*ssdconetrapezoidheight/(fgkSSDPConeUpMaxRadius | |
7567 | - 0.5*ssdconetrapezoidheight)*(0.5*fgkSSDPConeTrapezoidBasis | |
7568 | - 0.5*ssdconetrapezoidheight/TanD(fgkSSDPConeTrapezoidAngle))); | |
7569 | Double_t ssdconetrapezoidsection = (2.0*TMath::Pi()*fgkSSDPConeUpMaxRadius-8.0*ssdconetrapezoidbasis)/8.; | |
7570 | Double_t ssdpconetrapezoidsectionangle = ssdconetrapezoidsection/fgkSSDPConeUpMaxRadius | |
7571 | * TMath::RadToDeg(); | |
7572 | ssdpconezsection[10] = ssdpconezsection[9]; | |
7573 | ssdpconesectionradiusmin[10] = ssdpconesectionradiusmin[9]; | |
7574 | ssdpconesectionradiusmax[10] = ssdpconesectionradiusmax[9]; | |
7575 | ssdpconesectionradiusmin[11] = fgkSSDPConeUpMaxRadius-ssdpconezsection[0] | |
7576 | * CosD(fgkSSDPConeAngle) | |
7577 | / SinD(fgkSSDPConeAngle); | |
7578 | ssdpconesectionradiusmax[11] = fgkSSDPConeUpMaxRadius; | |
7579 | ssdpconezsection[11] = (ssdpconesectionradiusmin[11]-ssdpconesectionradiusmin[10]) | |
7580 | * TanD(fgkSSDPConeAngle)+ssdpconezsection[10]; | |
7581 | ssdpconelittleholeshape[5] = new TGeoPcon(90.-0.5*ssdpconetrapezoidsectionangle, | |
7582 | ssdpconetrapezoidsectionangle,2); | |
7583 | for(Int_t i=10;i<12;i++) ssdpconelittleholeshape[5]->DefineSection(i-10,ssdpconezsection[i], | |
7584 | ssdpconesectionradiusmin[i],ssdpconesectionradiusmax[i]); | |
7585 | ssdpconelittlehole[5] = new TGeoVolume("SSDConeLittleHole6",ssdpconelittleholeshape[5],fSSDCarbonFiberMedium); | |
7586 | ssdpconelittlehole[5]->SetLineColor(4); | |
7587 | TGeoRotation* ssdconeupradiusrot[8]; | |
7588 | for(Int_t i=0; i<8; i++){ | |
7589 | ssdconeupradiusrot[i] = new TGeoRotation(); | |
7590 | ssdconeupradiusrot[i]->SetAngles(i*45,0.,0.); | |
7591 | } | |
7592 | ///////////////////////////////////////////////////////////// | |
7593 | ssdpconezsection[12] = ssdpconezsection[11]; | |
7594 | ssdpconezsection[13] = ssdpconezsection[12]+fgkSSDPConeRadiusWidth; | |
7595 | ssdpconesectionradiusmin[12] = ssdpconesectionradiusmin[11]; | |
7596 | ssdpconesectionradiusmax[12] = fgkSSDPConeExternalRadius; | |
7597 | ssdpconesectionradiusmin[13] = ssdpconesectionradiusmin[12]; | |
7598 | ssdpconesectionradiusmax[13] = fgkSSDPConeExternalRadius; | |
7599 | ssdpconelittleholeshape[6] = new TGeoPcon(0.,360.,2); | |
7600 | for(Int_t i=12; i<14;i++) ssdpconelittleholeshape[6]->DefineSection(i-12,ssdpconezsection[i], | |
7601 | ssdpconesectionradiusmin[i],ssdpconesectionradiusmax[i]); | |
7602 | ssdpconelittlehole[6] = new TGeoVolume("SSDConeLittleHole7",ssdpconelittleholeshape[6],fSSDCarbonFiberMedium); | |
7603 | ssdpconelittlehole[6]->SetLineColor(4); | |
7604 | ///////////////////////////////////////////////////////////// | |
7605 | ssdpconezsection[14] = 0.0; | |
7606 | ssdpconezsection[15] = ssdpconezsection[0]; | |
7607 | ssdpconesectionradiusmin[14] = ssdpconesectionradiusmin[0]; | |
7608 | ssdpconesectionradiusmax[14] = ssdpconesectionradiusmin[14]; | |
7609 | ssdpconesectionradiusmin[15] = ssdpconesectionradiusmin[0]; | |
7610 | ssdpconesectionradiusmax[15] = ssdpconesectionradiusmax[0]; | |
7611 | ssdpconelittleholeshape[7] = new TGeoPcon(0.,360.,2); | |
7612 | for(Int_t i=14; i<16;i++) ssdpconelittleholeshape[7]->DefineSection(i-14,ssdpconezsection[i], | |
7613 | ssdpconesectionradiusmin[i],ssdpconesectionradiusmax[i]); | |
7614 | ssdpconelittlehole[7] = new TGeoVolume("SSDConeLittleHole8",ssdpconelittleholeshape[7],fSSDCarbonFiberMedium); | |
7615 | ssdpconelittlehole[7]->SetLineColor(4); | |
7616 | ///////////////////////////////////////////////////////////// | |
7617 | TGeoTube* ssdtubeconeshape[2]; | |
7618 | TGeoVolume* ssdtubecone[2]; | |
7619 | TGeoTranslation* ssdtubeconetrans[2]; | |
7620 | ssdtubeconeshape[0] = new TGeoTube(fgkSSDPConeUpMiddleRadius, | |
7621 | fgkSSDPConeExternalRadius, | |
7622 | 0.5*(fgkSSDPConeLength-ssdpconezsection[13])); | |
7623 | ssdtubeconeshape[1] = new TGeoTube(fgkSSDPConeDownRadius,ssdpconesectionradiusmin[0], | |
7624 | 0.5*ssdpconezsection[0]); | |
7625 | ssdtubecone[0] = new TGeoVolume("SSDConeTube1",ssdtubeconeshape[0],fSSDSupportRingAl); | |
7626 | ssdtubecone[1] = new TGeoVolume("SSDConeTube2",ssdtubeconeshape[1],fSSDSupportRingAl); | |
7627 | ssdtubeconetrans[0] = new TGeoTranslation(0.,0., | |
7628 | 0.5*(fgkSSDPConeLength-ssdpconezsection[13]) | |
7629 | + ssdpconezsection[13]); | |
7630 | ssdtubeconetrans[1] = new TGeoTranslation(0.,0.,0.5*ssdpconezsection[0]); | |
7631 | ssdtubecone[0]->SetLineColor(4); | |
7632 | ssdtubecone[1]->SetLineColor(4); | |
7633 | ///////////////////////////////////////////////////////////// | |
7634 | // Mother Volume Container | |
7635 | ///////////////////////////////////////////////////////////// | |
7636 | Double_t ssdconemotherradiusmin[8]; | |
7637 | Double_t ssdconemotherradiusmax[8]; | |
7638 | Double_t ssdconemothersection[8]; | |
7639 | ssdconemotherradiusmin[0] = fgkSSDPConeDownRadius; | |
7640 | ssdconemotherradiusmax[0] = ssdpconesectionradiusmin[0]; | |
7641 | ssdconemotherradiusmin[1] = fgkSSDPConeDownRadius; | |
7642 | ssdconemotherradiusmax[1] = ssdpconesectionradiusmax[0]; | |
7643 | ssdconemotherradiusmin[2] = ssdpconesectionradiusmin[0]; | |
7644 | ssdconemotherradiusmax[2] = ssdpconesectionradiusmax[0]; | |
7645 | ssdconemotherradiusmin[3] = ssdpconesectionradiusmin[11]; | |
7646 | ssdconemotherradiusmax[3] = ssdpconesectionradiusmax[11]; | |
7647 | ssdconemotherradiusmin[4] = ssdpconesectionradiusmin[12]; | |
7648 | ssdconemotherradiusmax[4] = ssdpconesectionradiusmax[12]; | |
7649 | ssdconemotherradiusmin[5] = ssdpconesectionradiusmin[13]; | |
7650 | ssdconemotherradiusmax[5] = ssdpconesectionradiusmax[13]; | |
7651 | ssdconemotherradiusmin[6] = fgkSSDPConeUpMiddleRadius; | |
7652 | ssdconemotherradiusmax[6] = fgkSSDPConeExternalRadius; | |
7653 | ssdconemotherradiusmin[7] = fgkSSDPConeUpMiddleRadius; | |
7654 | ssdconemotherradiusmax[7] = fgkSSDPConeExternalRadius; | |
7655 | ssdconemothersection[0] = 0.0; | |
7656 | ssdconemothersection[1] = ssdpconezsection[0]; | |
7657 | ssdconemothersection[2] = ssdpconezsection[0]; | |
7658 | ssdconemothersection[3] = ssdpconezsection[11]; | |
7659 | ssdconemothersection[4] = ssdpconezsection[11]; | |
7660 | ssdconemothersection[5] = ssdpconezsection[13]; | |
7661 | ssdconemothersection[6] = ssdpconezsection[13]; | |
7662 | ssdconemothersection[7] = fgkSSDPConeLength; | |
7663 | TGeoPcon* ssdconemothershape = new TGeoPcon(0.,360,8); | |
7664 | for(Int_t i=0; i<8; i++) ssdconemothershape->DefineSection(i,ssdconemothersection[i], | |
7665 | ssdconemotherradiusmin[i],ssdconemotherradiusmax[i]); | |
7666 | TGeoVolume* ssdconemother = new TGeoVolume("SSDMotherCone",ssdconemothershape,fSSDAir); | |
7667 | ///////////////////////////////////////////////////////////// | |
7668 | //Placing the Volumes into Mother | |
7669 | ///////////////////////////////////////////////////////////// | |
7670 | ssdconemother->AddNode(ssdpconelittlehole[0],1); | |
7671 | for(Int_t i=0; i<6; i++){ | |
7672 | ssdconemother->AddNode(ssdpconelittlehole[1],i+1,ssdconelittleholerot[i]); | |
7673 | } | |
7674 | ssdconemother->AddNode(ssdpconelittlehole[2],1); | |
7675 | for(Int_t i=0; i<8; i++){ | |
7676 | ssdconemother->AddNode(ssdpconelittlehole[3],i+1,ssdconemiddleholerot[i]); | |
7677 | } | |
7678 | ssdconemother->AddNode(ssdpconelittlehole[4],1); | |
7679 | for(Int_t i=0; i<8; i++){ | |
7680 | ssdconemother->AddNode(ssdpconelittlehole[5],i+1,ssdconeupradiusrot[i]); | |
7681 | } | |
7682 | ssdconemother->AddNode(ssdpconelittlehole[6],1); | |
7683 | ssdconemother->AddNode(ssdpconelittlehole[7],1); | |
7684 | ssdconemother->AddNode(ssdtubecone[0],1,ssdtubeconetrans[0]); | |
7685 | ssdconemother->AddNode(ssdtubecone[1],1,ssdtubeconetrans[1]); | |
7686 | ///////////////////////////////////////////////////////////// | |
7687 | // ITS General Support | |
7688 | ///////////////////////////////////////////////////////////// | |
7689 | TGeoTube* ssdcentralsupportshape = new TGeoTube(fgkSSDCentralSupportRadius-fgkSSDCentralSupportWidth, | |
7690 | fgkSSDCentralSupportRadius,0.5*fgkSSDCentralSupportLength); | |
7691 | TGeoVolume* ssdcentralsupport = new TGeoVolume("SSDCentralSupport",ssdcentralsupportshape,fSSDRohaCellCone); | |
7692 | TGeoTranslation* ssdcentralsupportrans = new TGeoTranslation(0.,0.,-0.5*fgkSSDCentralSupportLength | |
7693 | - fgkSSDCentralAL3SupportLength); | |
7694 | ssdcentralsupport->SetLineColor(4); | |
7695 | fSSDCone->AddNode(ssdcentralsupport,1,ssdcentralsupportrans); | |
7696 | TGeoTube* ssdcentralal3supportshape = new TGeoTube(fgkSSDCentralSupportRadius-fgkSSDCentralSupportWidth, | |
7697 | fgkSSDCentralSupportRadius,0.25*fgkSSDCentralAL3SupportLength); | |
7698 | TGeoVolume* ssdcentralal3support = new TGeoVolume("SSDCentralAl3Support",ssdcentralal3supportshape,fSSDSupportRingAl); | |
7699 | TGeoTranslation* ssdcentralal3supportrans[3]; | |
7700 | ssdcentralal3supportrans[0] = new TGeoTranslation(0.,0.,-0.75*fgkSSDCentralAL3SupportLength); | |
7701 | ssdcentralal3supportrans[1] = new TGeoTranslation(0.,0.,-fgkSSDCentralSupportLength | |
7702 | - 1.25*fgkSSDCentralAL3SupportLength); | |
7703 | ssdcentralal3support->SetLineColor(4); | |
7704 | fSSDCone->AddNode(ssdcentralal3support,1,ssdcentralal3supportrans[0]); | |
7705 | fSSDCone->AddNode(ssdcentralal3support,2,ssdcentralal3supportrans[1]); | |
7706 | TGeoPcon* ssdpconcentralal3shape = new TGeoPcon(0.,360.,2); | |
7707 | Double_t ssdpconcentralradiusmin[2]; | |
7708 | Double_t ssdpconcentralradiusmax[2]; | |
7709 | Double_t ssdpconcentralsection[2]; | |
7710 | ssdpconcentralradiusmin[0] = fgkSSDCentralSupportRadius-fgkSSDCentralSupportWidth; | |
7711 | ssdpconcentralradiusmin[1] = fgkSSDCentralSupportRadius-fgkSSDCentralAL3SupportWidth; | |
7712 | ssdpconcentralradiusmax[0] = fgkSSDCentralSupportRadius; | |
7713 | ssdpconcentralradiusmax[1] = fgkSSDCentralSupportRadius; | |
7714 | ssdpconcentralsection[0] = -0.5*fgkSSDCentralAL3SupportLength; | |
7715 | ssdpconcentralsection[1] = 0.; | |
7716 | for(Int_t i=0; i<2;i++) ssdpconcentralal3shape->DefineSection(i,ssdpconcentralsection[i], | |
7717 | ssdpconcentralradiusmin[i],ssdpconcentralradiusmax[i]); | |
7718 | TGeoVolume* ssdpconcentralal3 = new TGeoVolume("SSDPConeCentralAl3",ssdpconcentralal3shape,fSSDSupportRingAl); | |
7719 | ssdpconcentralal3->SetLineColor(4); | |
7720 | fSSDCone->AddNode(ssdpconcentralal3,1); | |
7721 | TGeoRotation* ssdcentralal3supportrot = new TGeoRotation(); | |
7722 | ssdcentralal3supportrot->SetAngles(90.,180,-90.); | |
7723 | ssdcentralal3supportrans[2] = new TGeoTranslation(0.,0.,-fgkSSDCentralSupportLength | |
7724 | -2.*fgkSSDCentralAL3SupportLength); | |
7725 | TGeoCombiTrans* ssdcentralal3supporcombitrans = new TGeoCombiTrans(*ssdcentralal3supportrans[2], | |
7726 | *ssdcentralal3supportrot); | |
7727 | fSSDCone->AddNode(ssdpconcentralal3,2,ssdcentralal3supporcombitrans); | |
7728 | TGeoRotation* ssdconemotherot = new TGeoRotation(); | |
7729 | ssdconemotherot->SetAngles(90.,180.,-90.); | |
7730 | TGeoTranslation* ssdconemothertrans = new TGeoTranslation(0.,0.,-fgkSSDCentralSupportLength | |
7731 | -2.*fgkSSDCentralAL3SupportLength); | |
7732 | TGeoCombiTrans* ssdconemothercombitrans = new TGeoCombiTrans(*ssdconemothertrans,*ssdconemotherot); | |
7733 | fSSDCone->AddNode(ssdconemother,1); | |
7734 | fSSDCone->AddNode(ssdconemother,2,ssdconemothercombitrans); | |
7735 | ///////////////////////////////////////////////////////////// | |
7736 | // Deallocating memory | |
7737 | ///////////////////////////////////////////////////////////// | |
7738 | delete ssdcentralal3supportrot; | |
7739 | delete ssdcentralal3supportrans[2]; | |
7740 | delete ssdconemotherot; | |
7741 | delete ssdconemothertrans; | |
7742 | ///////////////////////////////////////////////////////////// | |
7743 | } | |
7744 | //////////////////////////////////////////////////////////////////////////////// | |
7745 | void AliITSv11GeometrySSD::SSDCables(TGeoVolume* moth){ | |
7746 | ///////////////////////////////////////////////////////////// | |
7747 | // Setting SSD Cables | |
7748 | ///////////////////////////////////////////////////////////// | |
7749 | if (! moth) { | |
7750 | AliError("Can't insert SSD Cables, mother is null!\n"); | |
7751 | return; | |
7752 | }; | |
7753 | TGeoVolume* ssdcables = SetSSDCables(); | |
7754 | moth->AddNode(ssdcables,1); | |
7755 | } | |
7756 | //////////////////////////////////////////////////////////////////////////////// | |
7757 | TGeoVolume* AliITSv11GeometrySSD::SetSSDCables(){ | |
7758 | ///////////////////////////////////////////////////////////// | |
7759 | // Method generating SSDCables | |
7760 | ///////////////////////////////////////////////////////////// | |
7761 | // SSD Layer 5 Cables | |
7762 | ////////////////////////////////////////////////////////////////////////////////////////////////// | |
7763 | TGeoVolumeAssembly* ssdcablesmother = new TGeoVolumeAssembly("SSDCables"); | |
7764 | Double_t ssdcablelayvertical = 0.05; // Internal variables to control overlapping with SDD cables | |
7765 | Double_t ssdcablelaylateral = 0.55; // Internal variables to control overlapping with SDD cables | |
7766 | Double_t ssdcablesfactor = 0.5; // Internal variables to control overlapping with SDD cables | |
7767 | ////////////////////////////////////////////////////////////////////////////////////////////////// | |
7768 | Double_t ssdcableslay5rigthsideradiusmin = fgkEndCapSupportMiddleRadius[0]+fgkSSDCablesLay5TubeRadiusMin; | |
7769 | Double_t ssdcableslay5endconedistance = (ssdcableslay5rigthsideradiusmin | |
7770 | - fgkSSDLowerPConeRadius) | |
7771 | * TanD(fgkSSDPConeAngle); | |
7772 | Double_t ssdcableslay5startconedistance = fgkEndCapSupportCenterLay5ITSPosition | |
7773 | + fgkEndCapSupportCenterLay5Position | |
7774 | - 0.5*fgkSSDCentralSupportLength-fgkSSDCentralAL3SupportLength; | |
7775 | Double_t ssdcablelay5rightsidelength = ssdcableslay5endconedistance | |
7776 | - ssdcableslay5startconedistance; | |
7777 | ssdcablelay5rightsidelength *= ssdcablesfactor; | |
7778 | Double_t ssdcableslay5rightsideradiusmax = ssdcableslay5rigthsideradiusmin+fgkSSDCablesLay5RightSideHeight; | |
7779 | TGeoTube* ssdcablelay5rightubeshape = new TGeoTube(ssdcableslay5rigthsideradiusmin, | |
7780 | ssdcableslay5rightsideradiusmax, | |
7781 | 0.5*ssdcablelay5rightsidelength); | |
7782 | TGeoVolume* ssdcablelay5righttube = new TGeoVolume("SSDCableLay5RightSideTube", | |
7783 | ssdcablelay5rightubeshape, | |
7784 | fSSDCopper); | |
7785 | ssdcablelay5righttube->SetLineColor(9); | |
7786 | TGeoTranslation* ssdcablelay5rightrans = | |
7787 | new TGeoTranslation(0.,0.,fgkEndCapSupportCenterLay5ITSPosition | |
7788 | + fgkEndCapSupportCenterLay5Position | |
7789 | + 0.5*ssdcablelay5rightsidelength); | |
7790 | //////////////////////////////////// | |
7791 | // Double_t cablescapacity[20]; | |
7792 | // cablescapacity[0] = ssdcablelay5rightubeshape->Capacity(); | |
7793 | //////////////////////////////////// | |
7794 | ssdcablesmother->AddNode(ssdcablelay5righttube,1,ssdcablelay5rightrans); | |
7795 | //////////////////////////////////// | |
7796 | // TGeoPCone Volumes | |
7797 | /////////////////////////////////// | |
7798 | TGeoPcon* ssdcableslay5pconshape[3]; | |
7799 | TGeoVolume* ssdcableslay5pcon[3]; | |
7800 | ssdcableslay5pconshape[0] = new TGeoPcon(0.,360.,2); | |
7801 | Double_t ssdcableslay5pconzsection[6]; | |
7802 | Double_t ssdcableslay5pconrmin[6]; | |
7803 | Double_t ssdcableslay5pconrmax[6]; | |
7804 | ssdcableslay5pconrmin[0] = ssdcablelay5rightubeshape->GetRmin(); | |
7805 | ssdcableslay5pconrmax[0] = ssdcablelay5rightubeshape->GetRmax(); | |
7806 | ssdcableslay5pconrmin[1] = fgkSSDPConeUpRadius*(1.0+ssdcablelayvertical); | |
7807 | ssdcableslay5pconrmax[1] = ssdcableslay5pconrmin[1]+fgkSSDCablesLay5RightSideHeight; | |
7808 | ssdcableslay5pconzsection[0] = fgkEndCapSupportCenterLay5ITSPosition | |
7809 | + fgkEndCapSupportCenterLay5Position | |
7810 | + 2.*ssdcablelay5rightubeshape->GetDz(); | |
7811 | ssdcableslay5pconzsection[1] = 0.5*fgkSSDCentralSupportLength | |
7812 | + fgkSSDCentralAL3SupportLength | |
7813 | + (fgkSSDPConeUpRadius-fgkSSDLowerPConeRadius) | |
7814 | * TanD(fgkSSDPConeAngle); | |
7815 | for(Int_t i=0; i<2;i++) ssdcableslay5pconshape[0]->DefineSection(i,ssdcableslay5pconzsection[i], | |
7816 | ssdcableslay5pconrmin[i],ssdcableslay5pconrmax[i]); | |
7817 | ssdcableslay5pcon[0] = new TGeoVolume("SSDCableLay5RightSidePCon1", | |
7818 | ssdcableslay5pconshape[0],fSSDCopper); | |
7819 | ssdcableslay5pcon[0]->SetLineColor(9); | |
7820 | ssdcablesmother->AddNode(ssdcableslay5pcon[0],1); | |
7821 | //////////////////////////////////// | |
7822 | // cablescapacity[1] = ssdcableslay5pconshape[0]->Capacity(); | |
7823 | //////////////////////////////////// | |
7824 | ssdcableslay5pconzsection[2] = ssdcableslay5pconzsection[1]; | |
7825 | ssdcableslay5pconzsection[3] = 0.5*fgkSSDCentralSupportLength | |
7826 | + fgkSSDCentralAL3SupportLength | |
7827 | + 0.25*TanD(fgkSSDPConeAngle)*(fgkSSDPConeUpMaxRadius | |
7828 | + 3.*fgkSSDPConeUpRadius-4.*fgkSSDLowerPConeRadius); | |
7829 | Double_t ssdcableangle = (fgkSSDPConeTrapezoidBasis-2.*(fgkSSDPConeUpMaxRadius | |
7830 | - fgkSSDPConeUpRadius)/TanD(fgkSSDPConeTrapezoidAngle)) | |
7831 | / fgkSSDPConeUpRadius*TMath::RadToDeg()*2; | |
7832 | ssdcableslay5pconshape[1] = new TGeoPcon(90.0-fgkSSDCableAngle-0.5*ssdcableangle, | |
7833 | ssdcableangle,2); | |
7834 | ssdcableslay5pconrmin[2] = ssdcableslay5pconrmin[1]; | |
7835 | ssdcableslay5pconrmax[2] = ssdcableslay5pconrmax[1]; | |
7836 | ssdcableslay5pconrmin[3] = 0.25*(fgkSSDPConeUpMaxRadius+3.*fgkSSDPConeUpRadius | |
7837 | - 4.*fgkSSDLowerPConeRadius)+fgkSSDLowerPConeRadius; | |
7838 | ssdcableslay5pconrmin[3]*=(1.0+ssdcablelayvertical); | |
7839 | ssdcableslay5pconrmax[3] = ssdcableslay5pconrmin[3]+fgkSSDCablesLay5RightSideHeight; | |
7840 | for(Int_t i=0; i<2;i++) ssdcableslay5pconshape[1]->DefineSection(i,ssdcableslay5pconzsection[i+2], | |
7841 | ssdcableslay5pconrmin[i+2],ssdcableslay5pconrmax[i+2]); | |
7842 | ssdcableslay5pcon[1] = new TGeoVolume("SSDCableLay5RightSidePCon2",ssdcableslay5pconshape[1],fSSDCopper); | |
7843 | ssdcableslay5pcon[1]->SetLineColor(9); | |
7844 | //////////////////////////////////// | |
7845 | ssdcableslay5pconshape[2] = new TGeoPcon(90.0-fgkSSDCableAngle-0.5*ssdcableangle, | |
7846 | ssdcableangle,2); | |
7847 | ssdcableslay5pconrmin[4] = ssdcableslay5pconrmin[3]; | |
7848 | ssdcableslay5pconrmax[4] = ssdcableslay5pconrmax[3]; | |
7849 | ssdcableslay5pconrmin[5] = ssdcableslay5pconrmin[4]; | |
7850 | ssdcableslay5pconrmax[5] = ssdcableslay5pconrmax[4]; | |
7851 | ssdcableslay5pconzsection[4] = ssdcableslay5pconzsection[3]; | |
7852 | ssdcableslay5pconzsection[5] = (ssdcableslay5pconrmin[5]-fgkSSDLowerPConeRadius) | |
7853 | * TanD(fgkSSDPConeAngle) | |
7854 | + 0.5*fgkSSDCentralSupportLength | |
7855 | + fgkSSDCentralAL3SupportLength; | |
7856 | ssdcableslay5pconzsection[5]-= ssdcablelaylateral; | |
7857 | for(Int_t i=0; i<2;i++) ssdcableslay5pconshape[2]->DefineSection(i,ssdcableslay5pconzsection[i+4], | |
7858 | ssdcableslay5pconrmin[i+4],ssdcableslay5pconrmax[i+4]); | |
7859 | ssdcableslay5pcon[2] = new TGeoVolume("SSDCableLay5RightSidePCon3",ssdcableslay5pconshape[2],fSSDCopper); | |
7860 | ssdcableslay5pcon[2]->SetLineColor(9); | |
7861 | //////////////////////////////////// | |
7862 | TGeoRotation* ssdcableslay5pconrot[4]; | |
7863 | for(Int_t i=0; i<4; i++){ | |
7864 | ssdcableslay5pconrot[i] = new TGeoRotation(); | |
7865 | ssdcableslay5pconrot[i]->SetAngles(90.0*i,0.,0.); | |
7866 | ssdcablesmother->AddNode(ssdcableslay5pcon[1],i+1,ssdcableslay5pconrot[i]); | |
7867 | ssdcablesmother->AddNode(ssdcableslay5pcon[2],i+1,ssdcableslay5pconrot[i]); | |
7868 | } | |
7869 | //////////////////////////////////// | |
7870 | //cablescapacity[2] = 4.0*ssdcableslay5pconshape[1]->Capacity(); | |
7871 | //cablescapacity[3] = 4.0*ssdcableslay5pconshape[2]->Capacity(); | |
7872 | //////////////////////////////////// | |
7873 | // Positioning Left SSD Cables Part | |
7874 | //////////////////////////////////// | |
7875 | TGeoTranslation* ssdcablesLay5RightTubeToLeftrans = new TGeoTranslation(0.,0., | |
7876 | - 0.5*ssdcablelay5rightsidelength | |
7877 | - fgkEndCapSupportCenterLay5Position | |
7878 | - fgkEndCapSupportCenterLay5ITSPosition); | |
7879 | ssdcablesmother->AddNode(ssdcablelay5righttube,2,ssdcablesLay5RightTubeToLeftrans); | |
7880 | TGeoRotation* ssdcablesLay5RightPConToLeftRot = new TGeoRotation(); | |
7881 | ssdcablesLay5RightPConToLeftRot->SetAngles(90.,180.,-90); | |
7882 | ssdcablesmother->AddNode(ssdcableslay5pcon[0],2,ssdcablesLay5RightPConToLeftRot); | |
7883 | TGeoHMatrix* ssdcablesLay5RightPConToLeftMatrix[4]; | |
7884 | for(Int_t i=0; i<4; i++){ ssdcablesLay5RightPConToLeftMatrix[i] = | |
7885 | new TGeoHMatrix((*ssdcablesLay5RightPConToLeftRot)*(*ssdcableslay5pconrot[i])); | |
7886 | ssdcablesmother->AddNode(ssdcableslay5pcon[1],i+5,ssdcablesLay5RightPConToLeftMatrix[i]); | |
7887 | ssdcablesmother->AddNode(ssdcableslay5pcon[2],i+5,ssdcablesLay5RightPConToLeftMatrix[i]); | |
7888 | } | |
7889 | //////////////////////////////////// | |
7890 | //cablescapacity[4] = ssdcablelay5rightubeshape->Capacity(); | |
7891 | //cablescapacity[5] = ssdcableslay5pconshape[0]->Capacity(); | |
7892 | //cablescapacity[6] = 4.*ssdcableslay5pconshape[1]->Capacity(); | |
7893 | //cablescapacity[7] = 4.*ssdcableslay5pconshape[2]->Capacity(); | |
7894 | ///////////////////////////////////////////////////////////// | |
7895 | // Water Tubes Layer 5 | |
7896 | ///////////////////////// | |
7897 | TGeoTube* ssdcablelay5rightubewatershape = new TGeoTube(ssdcableslay5rightsideradiusmax, | |
7898 | ssdcableslay5rightsideradiusmax | |
7899 | + fgkSSDCablesLay5RightSideWaterHeight, | |
7900 | 0.5*ssdcablelay5rightsidelength); | |
7901 | TGeoVolume* ssdcablelay5rightwatertube = new TGeoVolume("SSDCableLay5RightSideWaterTube", | |
7902 | ssdcablelay5rightubewatershape, | |
7903 | fSSDCoolingTubeWater); | |
7904 | ssdcablelay5rightwatertube->SetLineColor(7); | |
7905 | ssdcablesmother->AddNode(ssdcablelay5rightwatertube,1,ssdcablelay5rightrans); | |
7906 | ssdcablesmother->AddNode(ssdcablelay5rightwatertube,2,ssdcablesLay5RightTubeToLeftrans); | |
7907 | //////////////////////////////////// | |
7908 | // TGeoPCone Water Volumes Layer | |
7909 | /////////////////////////////////// | |
7910 | TGeoPcon* ssdcableslay5pconwatershape[3]; | |
7911 | TGeoVolume* ssdcableslay5pconwater[3]; | |
7912 | ssdcableslay5pconwatershape[0] = new TGeoPcon(0.,360.,2); | |
7913 | Double_t ssdcableslay5pconwaterzsection[6]; | |
7914 | Double_t ssdcableslay5pcwateronrmin[6]; | |
7915 | Double_t ssdcableslay5pconwaterrmax[6]; | |
7916 | ssdcableslay5pcwateronrmin[0] = ssdcableslay5pconrmax[0]; | |
7917 | ssdcableslay5pconwaterrmax[0] = ssdcableslay5pcwateronrmin[0] | |
7918 | + fgkSSDCablesLay5RightSideWaterHeight; | |
7919 | ssdcableslay5pcwateronrmin[1] = ssdcableslay5pconrmax[1]; | |
7920 | ssdcableslay5pconwaterrmax[1] = ssdcableslay5pcwateronrmin[1] | |
7921 | + fgkSSDCablesLay5RightSideWaterHeight; | |
7922 | ssdcableslay5pconwaterzsection[0] = ssdcableslay5pconzsection[0]; | |
7923 | ssdcableslay5pconwaterzsection[1] = ssdcableslay5pconzsection[1]; | |
7924 | for(Int_t i=0; i<2;i++) ssdcableslay5pconwatershape[0]->DefineSection(i,ssdcableslay5pconwaterzsection[i], | |
7925 | ssdcableslay5pcwateronrmin[i],ssdcableslay5pconwaterrmax[i]); | |
7926 | ssdcableslay5pconwater[0] = new TGeoVolume("SSDCableLay5RightSidePConWater1", | |
7927 | ssdcableslay5pconwatershape[0],fSSDCoolingTubeWater); | |
7928 | ssdcableslay5pconwater[0]->SetLineColor(7); | |
7929 | ssdcablesmother->AddNode(ssdcableslay5pconwater[0],1); | |
7930 | ssdcablesmother->AddNode(ssdcableslay5pconwater[0],2,ssdcablesLay5RightPConToLeftRot); | |
7931 | //////////////////////////////////// | |
7932 | ssdcableslay5pconwaterzsection[2] = ssdcableslay5pconzsection[2]; | |
7933 | ssdcableslay5pconwaterzsection[3] = ssdcableslay5pconzsection[3]; | |
7934 | ssdcableslay5pconwatershape[1] = new TGeoPcon(90.0-fgkSSDCableAngle-0.5*ssdcableangle, | |
7935 | ssdcableangle,2); | |
7936 | ssdcableslay5pcwateronrmin[2] = ssdcableslay5pconrmax[1]; | |
7937 | ssdcableslay5pconwaterrmax[2] = ssdcableslay5pcwateronrmin[2] | |
7938 | + fgkSSDCablesLay5RightSideWaterHeight; | |
7939 | ssdcableslay5pcwateronrmin[3] = ssdcableslay5pconrmax[3]; | |
7940 | ssdcableslay5pconwaterrmax[3] = ssdcableslay5pcwateronrmin[3] | |
7941 | + fgkSSDCablesLay5RightSideWaterHeight; | |
7942 | for(Int_t i=0; i<2;i++) ssdcableslay5pconwatershape[1]->DefineSection(i,ssdcableslay5pconwaterzsection[i+2], | |
7943 | ssdcableslay5pcwateronrmin[i+2],ssdcableslay5pconwaterrmax[i+2]); | |
7944 | ssdcableslay5pconwater[1] = new TGeoVolume("SSDCableLay5RightSidePConWater2", | |
7945 | ssdcableslay5pconwatershape[1],fSSDCoolingTubeWater); | |
7946 | ssdcableslay5pconwater[1]->SetLineColor(7); | |
7947 | //////////////////////////////////// | |
7948 | ssdcableslay5pconwatershape[2] = new TGeoPcon(90.0-fgkSSDCableAngle-0.5*ssdcableangle, | |
7949 | ssdcableangle,2); | |
7950 | ssdcableslay5pcwateronrmin[4] = ssdcableslay5pconrmax[3]; | |
7951 | ssdcableslay5pconwaterrmax[4] = ssdcableslay5pcwateronrmin[4] | |
7952 | + fgkSSDCablesLay5RightSideWaterHeight; | |
7953 | ssdcableslay5pcwateronrmin[5] = ssdcableslay5pconrmax[4]; | |
7954 | ssdcableslay5pconwaterrmax[5] = ssdcableslay5pcwateronrmin[4] | |
7955 | + fgkSSDCablesLay5RightSideWaterHeight; | |
7956 | ssdcableslay5pconwaterzsection[4] = ssdcableslay5pconzsection[4]; | |
7957 | ssdcableslay5pconwaterzsection[5] = ssdcableslay5pconzsection[5]; | |
7958 | for(Int_t i=0; i<2;i++) ssdcableslay5pconwatershape[2]->DefineSection(i,ssdcableslay5pconwaterzsection[i+4], | |
7959 | ssdcableslay5pcwateronrmin[i+4],ssdcableslay5pconwaterrmax[i+4]); | |
7960 | ssdcableslay5pconwater[2] = new TGeoVolume("SSDCableLay5RightSidePConWater3", | |
7961 | ssdcableslay5pconwatershape[2],fSSDCoolingTubeWater); | |
7962 | ssdcableslay5pconwater[2]->SetLineColor(7); | |
7963 | //////////////////////////////////// | |
7964 | TGeoRotation* ssdcableslay5pconwaterot[4]; | |
7965 | TGeoHMatrix* ssdcablesLay5RightPConWaterToLeftMatrix[4]; | |
7966 | for(Int_t i=0; i<4; i++){ | |
7967 | ssdcableslay5pconwaterot[i] = new TGeoRotation(); | |
7968 | ssdcableslay5pconwaterot[i]->SetAngles(90.0*i+45.0,0.,0.); | |
7969 | ssdcablesLay5RightPConWaterToLeftMatrix[i] = | |
7970 | new TGeoHMatrix((*ssdcablesLay5RightPConToLeftRot)*(*ssdcableslay5pconwaterot[i])); | |
7971 | ssdcablesmother->AddNode(ssdcableslay5pconwater[1],i+1,ssdcableslay5pconwaterot[i]); | |
7972 | ssdcablesmother->AddNode(ssdcableslay5pconwater[1],i+5,ssdcablesLay5RightPConWaterToLeftMatrix[i]); | |
7973 | ssdcablesmother->AddNode(ssdcableslay5pconwater[2],i+1,ssdcableslay5pconwaterot[i]); | |
7974 | ssdcablesmother->AddNode(ssdcableslay5pconwater[2],i+5,ssdcablesLay5RightPConWaterToLeftMatrix[i]); | |
7975 | } | |
7976 | ///////////////////////// | |
7977 | // SSD Layer 6 Cables | |
7978 | ///////////////////////// | |
7979 | Double_t ssdcableslay6rigthsideradiusmin = fgkEndCapSupportMiddleRadius[1]+fgkSSDCablesLay6TubeRadiusMin; | |
7980 | Double_t ssdcablelay6rightsidelength = 2.*ssdcablelay5rightsidelength; | |
7981 | Double_t ssdcableslay6rightsideradiusmax = ssdcableslay6rigthsideradiusmin+fgkSSDCablesLay6RightSideHeight; | |
7982 | TGeoTube* ssdcablelay6rightubeshape = new TGeoTube(ssdcableslay6rigthsideradiusmin, | |
7983 | ssdcableslay6rightsideradiusmax, | |
7984 | 0.5*ssdcablelay6rightsidelength); | |
7985 | TGeoVolume* ssdcablelay6righttube = new TGeoVolume("SSDCableLay6RightSideTube", | |
7986 | ssdcablelay6rightubeshape, | |
7987 | fSSDCopper); | |
7988 | ssdcablelay6righttube->SetLineColor(9); | |
7989 | TGeoTranslation* ssdcablelay6rightrans = | |
7990 | new TGeoTranslation(0.,0.,fgkEndCapSupportCenterLay6ITSPosition | |
7991 | + fgkEndCapSupportCenterLay6Position | |
7992 | + 0.5*ssdcablelay6rightsidelength); | |
7993 | TGeoTranslation* ssdcablesLay6RightTubeToLeftrans = new TGeoTranslation(0.,0., | |
7994 | - 0.5*ssdcablelay6rightsidelength | |
7995 | - fgkEndCapSupportCenterLay6Position | |
7996 | - fgkEndCapSupportCenterLay6ITSPosition); | |
7997 | ssdcablesmother->AddNode(ssdcablelay6righttube,1,ssdcablelay6rightrans); | |
7998 | ssdcablesmother->AddNode(ssdcablelay6righttube,2,ssdcablesLay6RightTubeToLeftrans); | |
7999 | //////////////////////////////////// | |
8000 | //cablescapacity[8] = 2.*ssdcablelay6rightubeshape->Capacity(); | |
8001 | //////////////////////////////////// | |
8002 | TGeoPcon* ssdcableslay6pconshape = new TGeoPcon(90.0-fgkSSDCableAngle-0.5*ssdcableangle, | |
8003 | ssdcableangle,2); | |
8004 | TGeoVolume* ssdcableslay6pcon; | |
8005 | Double_t ssdcableslay6pconrmin[2]; | |
8006 | Double_t ssdcableslay6pconrmax[2]; | |
8007 | Double_t ssdcableslay6pconzsection[2]; | |
8008 | ssdcableslay6pconrmin[0] = ssdcableslay6rigthsideradiusmin; | |
8009 | ssdcableslay6pconrmax[0] = ssdcableslay6rightsideradiusmax; | |
8010 | ssdcableslay6pconrmin[1] = ssdcableslay6pconrmin[0]; | |
8011 | ssdcableslay6pconrmax[1] = ssdcableslay6pconrmax[0]; | |
8012 | ssdcableslay6pconzsection[0] = fgkEndCapSupportCenterLay6ITSPosition | |
8013 | + fgkEndCapSupportCenterLay6Position | |
8014 | + ssdcablelay6rightsidelength; | |
8015 | ssdcableslay6pconzsection[1] = ssdcableslay5pconwaterzsection[5]; | |
8016 | for(Int_t i=0; i<2;i++) ssdcableslay6pconshape->DefineSection(i,ssdcableslay6pconzsection[i], | |
8017 | ssdcableslay6pconrmin[i],ssdcableslay6pconrmax[i]); | |
8018 | ssdcableslay6pcon = new TGeoVolume("SSDCableLay6RightSidePCon", | |
8019 | ssdcableslay6pconshape,fSSDCopper); | |
8020 | ssdcableslay6pcon->SetLineColor(9); | |
8021 | for(Int_t i=0; i<4; i++){ | |
8022 | ssdcablesmother->AddNode(ssdcableslay6pcon,i+1,ssdcableslay5pconrot[i]); | |
8023 | ssdcablesmother->AddNode(ssdcableslay6pcon,i+5,ssdcablesLay5RightPConToLeftMatrix[i]); | |
8024 | } | |
8025 | //////////////////////////////////// | |
8026 | //cablescapacity[9] = 8.*ssdcableslay6pconshape->Capacity(); | |
8027 | ///////////////////////// | |
8028 | // Water Tubes Layer 6 | |
8029 | ///////////////////////// | |
8030 | TGeoTube* ssdcablelay6righwatertubeshape = new TGeoTube(ssdcableslay6rightsideradiusmax, | |
8031 | ssdcableslay6rightsideradiusmax | |
8032 | + fgkSSDCablesLay5RightSideWaterHeight, | |
8033 | 0.5*ssdcablelay6rightsidelength); | |
8034 | TGeoVolume* ssdcablelay6rightwatertube = new TGeoVolume("SSDCableLay6RightSideWaterTube", | |
8035 | ssdcablelay6righwatertubeshape, | |
8036 | fSSDCoolingTubeWater); | |
8037 | ssdcablelay6rightwatertube->SetLineColor(7); | |
8038 | ssdcablesmother->AddNode(ssdcablelay6rightwatertube,1,ssdcablelay6rightrans); | |
8039 | ssdcablesmother->AddNode(ssdcablelay6rightwatertube,2,ssdcablesLay6RightTubeToLeftrans); | |
8040 | TGeoPcon* ssdcableslay6waterpconshape = new TGeoPcon(90.0-fgkSSDCableAngle-0.5*ssdcableangle, | |
8041 | ssdcableangle,2); | |
8042 | TGeoVolume* ssdcableslay6waterpcon; | |
8043 | Double_t ssdcableslay6waterpconrmin[2]; | |
8044 | Double_t ssdcableslay6waterpconrmax[2]; | |
8045 | Double_t ssdcableslay6waterpconzsection[2]; | |
8046 | ssdcableslay6waterpconrmin[0] = ssdcableslay6rightsideradiusmax; | |
8047 | ssdcableslay6waterpconrmax[0] = ssdcableslay6rightsideradiusmax | |
8048 | + fgkSSDCablesLay5RightSideWaterHeight; | |
8049 | ssdcableslay6waterpconrmin[1] = ssdcableslay6waterpconrmin[0]; | |
8050 | ssdcableslay6waterpconrmax[1] = ssdcableslay6waterpconrmax[0]; | |
8051 | ssdcableslay6waterpconzsection[0] = fgkEndCapSupportCenterLay6ITSPosition | |
8052 | + fgkEndCapSupportCenterLay6Position | |
8053 | + ssdcablelay6rightsidelength; | |
8054 | ssdcableslay6waterpconzsection[1] = ssdcableslay5pconwaterzsection[5]; | |
8055 | for(Int_t i=0; i<2;i++) ssdcableslay6waterpconshape->DefineSection(i,ssdcableslay6waterpconzsection[i], | |
8056 | ssdcableslay6waterpconrmin[i],ssdcableslay6waterpconrmax[i]); | |
8057 | ssdcableslay6waterpcon = new TGeoVolume("SSDCableLay6RightSideWaterPCon", | |
8058 | ssdcableslay6waterpconshape,fSSDCoolingTubeWater); | |
8059 | ssdcableslay6waterpcon->SetLineColor(7); | |
8060 | TGeoRotation* ssdcableslay6pconwaterot[4]; | |
8061 | TGeoRotation* ssdcablesLay6RightPConToLeftRot = new TGeoRotation(); | |
8062 | ssdcablesLay6RightPConToLeftRot->SetAngles(90.,180.,-90); | |
8063 | TGeoHMatrix* ssdcablesLay6RightPConToLeftMatrix[4]; | |
8064 | for(Int_t i=0; i<4; i++){ | |
8065 | ssdcableslay6pconwaterot[i] = new TGeoRotation(); | |
8066 | ssdcableslay6pconwaterot[i]->SetAngles(90.0*i+45.0,0.,0.); | |
8067 | ssdcablesLay6RightPConToLeftMatrix[i] = new TGeoHMatrix((*ssdcablesLay6RightPConToLeftRot) | |
8068 | * (*ssdcableslay6pconwaterot[i])); | |
8069 | ssdcablesmother->AddNode(ssdcableslay6waterpcon,i+1,ssdcableslay6pconwaterot[i]); | |
8070 | ssdcablesmother->AddNode(ssdcableslay6waterpcon,i+5,ssdcablesLay6RightPConToLeftMatrix[i]); | |
8071 | } | |
8072 | //////////////////////////////////////// | |
8073 | // From ITS Ring to Patch Panel3-RB26 | |
8074 | //////////////////////////////////////// | |
8075 | Double_t ssdcablepatchpanel3BB26radiusmin[2]; | |
8076 | Double_t ssdcablepatchpanel3BB26radiusmax[2]; | |
8077 | Double_t ssdcablepatchpanel3RB26zsection[2]; | |
8078 | ssdcablepatchpanel3BB26radiusmin[0] = ssdcableslay5pconrmin[3]-0.5*fgkSSDPatchPanelHeigth+2.8; | |
8079 | ssdcablepatchpanel3BB26radiusmax[0] = ssdcablepatchpanel3BB26radiusmin[0] | |
8080 | + fgkSSDCablesLay5RightSideHeight | |
8081 | + fgkSSDCablesLay6RightSideHeight+0.5*fgkSSDPatchPanelHeigth; | |
8082 | ssdcablepatchpanel3BB26radiusmin[1] = fgkSSDPatchPanel2RB26Radius; | |
8083 | ssdcablepatchpanel3BB26radiusmax[1] = ssdcablepatchpanel3BB26radiusmin[1] | |
8084 | + 0.*fgkSSDCablesLay5RightSideHeight | |
8085 | + 0.*fgkSSDCablesLay6RightSideHeight+0.5*fgkSSDPatchPanelHeigth; | |
8086 | ssdcablepatchpanel3RB26zsection[0] = 0.5*fgkSSDCentralSupportLength | |
8087 | + fgkSSDCentralAL3SupportLength | |
8088 | + fgkSSDPConeZLength[0]; | |
8089 | ssdcablepatchpanel3RB26zsection[1] = fgkSSDPatchPanel2RB26ITSDistance; | |
8090 | TGeoPcon* ssdcablepatchpanel3RB26pconshape = | |
8091 | new TGeoPcon(90.0-fgkSSDCablesPatchPanel2RB26Angle[0] | |
8092 | - 0.5*ssdcableangle,ssdcableangle,2); | |
8093 | for(Int_t i=0; i<2;i++) ssdcablepatchpanel3RB26pconshape->DefineSection(i,ssdcablepatchpanel3RB26zsection[i], | |
8094 | ssdcablepatchpanel3BB26radiusmin[i],ssdcablepatchpanel3BB26radiusmax[i]); | |
8095 | TGeoVolume* ssdcablepatchpanel3RB26pcon = new TGeoVolume("SSDCablePatchPanel3RB26", | |
8096 | ssdcablepatchpanel3RB26pconshape,fSSDCopper); | |
8097 | ssdcablepatchpanel3RB26pcon->SetLineColor(9); | |
8098 | TGeoRotation* ssdcablepatchpanel3B26rot[3]; | |
8099 | for(Int_t i=0; i<4; i++) ssdcablepatchpanel3B26rot[i] = new TGeoRotation(); | |
8100 | ssdcablepatchpanel3B26rot[0]->SetAngles(0.0,0.0,0.0); | |
8101 | ssdcablepatchpanel3B26rot[1]->SetAngles(fgkSSDCablesPatchPanel2RB26Angle[0] | |
8102 | + fgkSSDCablesPatchPanel2RB26Angle[1]+6.0,0.0,0.0); | |
8103 | ssdcablepatchpanel3B26rot[2]->SetAngles(180.0,0.0,0.0); | |
8104 | ssdcablepatchpanel3B26rot[3]->SetAngles(180.0+fgkSSDCablesPatchPanel2RB26Angle[0] | |
8105 | + fgkSSDCablesPatchPanel2RB26Angle[1]+6.0,0.0,0.0); | |
8106 | for(Int_t i=0; i<4; i++) ssdcablesmother->AddNode(ssdcablepatchpanel3RB26pcon,i+1,ssdcablepatchpanel3B26rot[i]); | |
8107 | //////////////////////////////////// | |
8108 | //cablescapacity[10] = 4.*ssdcablepatchpanel3RB26pconshape->Capacity(); | |
8109 | //////////////////////////////////////// | |
8110 | // ITS Ring Cables RB26 Part | |
8111 | //////////////////////////////////////// | |
8112 | Double_t ssdcableitsring3BB26pconzsection[2]; | |
8113 | Double_t ssdcableitsring3BB26pconrmin[2]; | |
8114 | Double_t ssdcableitsring3BB26pconrmax[2]; | |
8115 | ssdcableitsring3BB26pconzsection[0] = 0.5*fgkSSDCentralSupportLength | |
8116 | + fgkSSDCentralAL3SupportLength | |
8117 | + (4.0/5.0)*fgkSSDPConeZLength[0]; | |
8118 | ssdcableitsring3BB26pconzsection[1] = ssdcablepatchpanel3RB26zsection[0]; | |
8119 | ssdcableitsring3BB26pconrmin[0] = fgkSSDPConeUpRadius-0.5*fgkSSDPatchPanelHeigth; | |
8120 | ssdcableitsring3BB26pconrmax[0] = ssdcableitsring3BB26pconrmin[0] | |
8121 | + fgkSSDCablesLay5RightSideHeight | |
8122 | + fgkSSDCablesLay6RightSideHeight+0.5*fgkSSDPatchPanelHeigth; | |
8123 | ssdcableitsring3BB26pconrmin[1] = ssdcablepatchpanel3BB26radiusmin[0]; | |
8124 | ssdcableitsring3BB26pconrmax[1] = ssdcablepatchpanel3BB26radiusmax[0]; | |
8125 | TGeoPcon* ssdcableitsring3BB26pconshape[4]; | |
8126 | ssdcableitsring3BB26pconshape[0] = new TGeoPcon(90.0-fgkSSDCablesPatchPanel2RB26Angle[0] | |
8127 | - 0.5*ssdcableangle,ssdcableangle | |
8128 | + (fgkSSDCablesPatchPanel2RB26Angle[0] | |
8129 | - fgkSSDCableAngle),2); | |
8130 | ssdcableitsring3BB26pconshape[1] = new TGeoPcon(90.0+fgkSSDCablesPatchPanel2RB26Angle[1] | |
8131 | - 0.5*ssdcableangle,ssdcableangle | |
8132 | + 3.0*fgkSSDCableAngle | |
8133 | - fgkSSDCablesPatchPanel2RB26Angle[1],2); | |
8134 | ssdcableitsring3BB26pconshape[2] = new TGeoPcon(270-fgkSSDCablesPatchPanel2RB26Angle[0] | |
8135 | - 0.5*ssdcableangle,ssdcableangle | |
8136 | - fgkSSDCableAngle | |
8137 | + fgkSSDCablesPatchPanel2RB26Angle[0],2); | |
8138 | ssdcableitsring3BB26pconshape[3] = new TGeoPcon(270.0+fgkSSDCablesPatchPanel2RB26Angle[1] | |
8139 | - 0.5*ssdcableangle,ssdcableangle | |
8140 | + 3.0*fgkSSDCableAngle | |
8141 | - fgkSSDCablesPatchPanel2RB26Angle[1],2); | |
8142 | for(Int_t i=0;i<4;i++) | |
8143 | for(Int_t j=0; j<2; j++) ssdcableitsring3BB26pconshape[i]->DefineSection(j,ssdcableitsring3BB26pconzsection[j], | |
8144 | ssdcableitsring3BB26pconrmin[j], | |
8145 | ssdcableitsring3BB26pconrmax[j]); | |
8146 | TGeoVolume* ssdcableitsring3BB26pcon[4]; | |
8147 | ssdcableitsring3BB26pcon[0] = new TGeoVolume("SSDCableITSRing3RB26Part1", | |
8148 | ssdcableitsring3BB26pconshape[0],fSSDCopper); | |
8149 | ssdcableitsring3BB26pcon[1] = new TGeoVolume("SSDCableITSRing3RB26Part2", | |
8150 | ssdcableitsring3BB26pconshape[1],fSSDCopper); | |
8151 | ssdcableitsring3BB26pcon[2] = new TGeoVolume("SSDCableITSRing3RB26Part3", | |
8152 | ssdcableitsring3BB26pconshape[2],fSSDCopper); | |
8153 | ssdcableitsring3BB26pcon[3] = new TGeoVolume("SSDCableITSRing3RB26Part4", | |
8154 | ssdcableitsring3BB26pconshape[3],fSSDCopper); | |
8155 | for(Int_t i=0;i<4;i++){ | |
8156 | ssdcableitsring3BB26pcon[i]->SetLineColor(9); | |
8157 | ssdcablesmother->AddNode(ssdcableitsring3BB26pcon[i],1); | |
8158 | } | |
8159 | //////////////////////////////////// | |
8160 | //cablescapacity[11] = ssdcableitsring3BB26pconshape[0]->Capacity() | |
8161 | // + ssdcableitsring3BB26pconshape[1]->Capacity() | |
8162 | // + ssdcableitsring3BB26pconshape[2]->Capacity() | |
8163 | // + ssdcableitsring3BB26pconshape[3]->Capacity(); | |
8164 | //////////////////////////////////////// | |
8165 | // From ITS Ring to Patch Panel2-RB24 | |
8166 | //////////////////////////////////////// | |
8167 | Double_t ssdcablepatchpanel3BB24radiusmin[2]; | |
8168 | Double_t ssdcablepatchpanel3BB24radiusmax[2]; | |
8169 | Double_t ssdcablepatchpanel3RB24zsection[2]; | |
8170 | ssdcablepatchpanel3BB24radiusmin[0] = ssdcablepatchpanel3BB26radiusmin[0]; | |
8171 | ssdcablepatchpanel3BB24radiusmax[0] = ssdcablepatchpanel3BB26radiusmax[0]; | |
8172 | ssdcablepatchpanel3BB24radiusmin[1] = fgkSSDPatchPanel2RB24Radius; | |
8173 | ssdcablepatchpanel3BB24radiusmax[1] = ssdcablepatchpanel3BB24radiusmin[1] | |
8174 | + 0.*fgkSSDCablesLay5RightSideHeight | |
8175 | + 0.*fgkSSDCablesLay6RightSideHeight | |
8176 | + 0.5*fgkSSDPatchPanelHeigth; | |
8177 | ssdcablepatchpanel3RB24zsection[0] = -0.5*fgkSSDCentralSupportLength | |
8178 | - fgkSSDCentralAL3SupportLength | |
8179 | - fgkSSDPConeZLength[0]; | |
8180 | ssdcablepatchpanel3RB24zsection[1] = -fgkSSDPatchPanel2RB24ITSDistance; | |
8181 | TGeoPcon* ssdcablepatchpanel3RB24pconshape = | |
8182 | new TGeoPcon(90.0-fgkSSDCablesPatchPanel2RB24Angle[1] | |
8183 | - 0.5*ssdcableangle,ssdcableangle,2); | |
8184 | for(Int_t i=0; i<2;i++) ssdcablepatchpanel3RB24pconshape->DefineSection(i,ssdcablepatchpanel3RB24zsection[i], | |
8185 | ssdcablepatchpanel3BB24radiusmin[i],ssdcablepatchpanel3BB24radiusmax[i]); | |
8186 | TGeoVolume* ssdcablepatchpanel3RB24pcon = new TGeoVolume("SSDCablePatchPanel3RB24", | |
8187 | ssdcablepatchpanel3RB24pconshape, | |
8188 | fSSDCopper); | |
8189 | ssdcablepatchpanel3RB24pcon->SetLineColor(9); | |
8190 | TGeoRotation* ssdcablepatchpanel3B24rot[3]; | |
8191 | for(Int_t i=0; i<4; i++) ssdcablepatchpanel3B24rot[i] = new TGeoRotation(); | |
8192 | ssdcablepatchpanel3B24rot[0]->SetAngles(-6.0,0.0,0.0); | |
8193 | ssdcablepatchpanel3B24rot[1]->SetAngles(fgkSSDCablesPatchPanel2RB24Angle[0] | |
8194 | + fgkSSDCablesPatchPanel2RB24Angle[1],0.0,0.0); | |
8195 | ssdcablepatchpanel3B24rot[2]->SetAngles(174.0,0.0,0.0); | |
8196 | ssdcablepatchpanel3B24rot[3]->SetAngles(180.0+fgkSSDCablesPatchPanel2RB24Angle[0] | |
8197 | + fgkSSDCablesPatchPanel2RB24Angle[1],0.0,0.0); | |
8198 | for(Int_t i=0; i<4; i++) ssdcablesmother->AddNode(ssdcablepatchpanel3RB24pcon,i+1,ssdcablepatchpanel3B24rot[i]); | |
8199 | //////////////////////////////////// | |
8200 | //cablescapacity[12] = 4.*ssdcablepatchpanel3RB24pconshape->Capacity(); | |
8201 | //////////////////////////////////////// | |
8202 | // ITS Ring Cables RB24 Part | |
8203 | //////////////////////////////////////// | |
8204 | Double_t ssdcableitsring3BB24pconzsection[2]; | |
8205 | Double_t ssdcableitsring3BB24pconrmin[2]; | |
8206 | Double_t ssdcableitsring3BB24pconrmax[2]; | |
8207 | ssdcableitsring3BB24pconzsection[0] = -ssdcableitsring3BB26pconzsection[0]; | |
8208 | ssdcableitsring3BB24pconzsection[1] = ssdcablepatchpanel3RB24zsection[0]; | |
8209 | ssdcableitsring3BB24pconrmin[0] = fgkSSDPConeUpRadius-0.5*fgkSSDPatchPanelHeigth; | |
8210 | ssdcableitsring3BB24pconrmax[0] = ssdcableitsring3BB24pconrmin[0] | |
8211 | + fgkSSDCablesLay5RightSideHeight | |
8212 | + fgkSSDCablesLay6RightSideHeight+0.5*fgkSSDPatchPanelHeigth; | |
8213 | ssdcableitsring3BB24pconrmin[1] = ssdcablepatchpanel3BB24radiusmin[0]; | |
8214 | ssdcableitsring3BB24pconrmax[1] = ssdcablepatchpanel3BB24radiusmax[0]; | |
8215 | TGeoPcon* ssdcableitsring3BB24pconshape[4]; | |
8216 | ssdcableitsring3BB24pconshape[0] = new TGeoPcon(fgkSSDCableAngle-0.5*ssdcableangle,ssdcableangle | |
8217 | + (90.0-fgkSSDCablesPatchPanel2RB24Angle[1] | |
8218 | - fgkSSDCableAngle),2); | |
8219 | ssdcableitsring3BB24pconshape[1] = new TGeoPcon(90.0+fgkSSDCableAngle-0.5*ssdcableangle, | |
8220 | ssdcableangle-fgkSSDCableAngle | |
8221 | + fgkSSDCablesPatchPanel2RB24Angle[0],2); | |
8222 | ssdcableitsring3BB24pconshape[2] = new TGeoPcon(180.0+fgkSSDCableAngle-0.5*ssdcableangle,ssdcableangle | |
8223 | - fgkSSDCableAngle | |
8224 | + 90.0-fgkSSDCablesPatchPanel2RB24Angle[1],2); | |
8225 | ssdcableitsring3BB24pconshape[3] = new TGeoPcon(270.0+fgkSSDCableAngle-0.5*ssdcableangle, | |
8226 | ssdcableangle-fgkSSDCableAngle | |
8227 | + fgkSSDCablesPatchPanel2RB24Angle[0],2); | |
8228 | for(Int_t i=0;i<4;i++) | |
8229 | for(Int_t j=0; j<2; j++) ssdcableitsring3BB24pconshape[i]->DefineSection(j,ssdcableitsring3BB24pconzsection[j], | |
8230 | ssdcableitsring3BB24pconrmin[j], | |
8231 | ssdcableitsring3BB24pconrmax[j]); | |
8232 | TGeoVolume* ssdcableitsring3BB24pcon[4]; | |
8233 | ssdcableitsring3BB24pcon[0] = new TGeoVolume("SSDCableITSRing3RB24Part1", | |
8234 | ssdcableitsring3BB24pconshape[0],fSSDCopper); | |
8235 | ssdcableitsring3BB24pcon[1] = new TGeoVolume("SSDCableITSRing3RB24Part2", | |
8236 | ssdcableitsring3BB24pconshape[1],fSSDCopper); | |
8237 | ssdcableitsring3BB24pcon[2] = new TGeoVolume("SSDCableITSRing3RB24Part3", | |
8238 | ssdcableitsring3BB24pconshape[2],fSSDCopper); | |
8239 | ssdcableitsring3BB24pcon[3] = new TGeoVolume("SSDCableITSRing3RB24Part4", | |
8240 | ssdcableitsring3BB24pconshape[3],fSSDCopper); | |
8241 | for(Int_t i=0;i<4;i++){ | |
8242 | ssdcableitsring3BB24pcon[i]->SetLineColor(9); | |
8243 | ssdcablesmother->AddNode(ssdcableitsring3BB24pcon[i],1); | |
8244 | } | |
8245 | //////////////////////////////////// | |
8246 | //cablescapacity[13] = ssdcableitsring3BB24pconshape[0]->Capacity() | |
8247 | // + ssdcableitsring3BB24pconshape[1]->Capacity() | |
8248 | // + ssdcableitsring3BB24pconshape[2]->Capacity() | |
8249 | // + ssdcableitsring3BB24pconshape[3]->Capacity(); | |
8250 | //////////////////////////////////// | |
8251 | // Volumes for Material Budget | |
8252 | //////////////////////////////////// | |
8253 | TGeoTube* ssdcablelay6materialbudgetubeshape = new TGeoTube(ssdcableslay6rightsideradiusmax | |
8254 | + fgkSSDCablesLay5RightSideWaterHeight, | |
8255 | ssdcableslay6rightsideradiusmax | |
8256 | + fgkSSDCablesLay5RightSideWaterHeight | |
8257 | + fgkSSDCableMaterialBudgetHeight,0.5*ssdcablelay6rightsidelength); | |
8258 | TGeoVolume* ssdcablelay6materialbudgetube = new TGeoVolume("SSDCableLay6MaterialBudgetTube", | |
8259 | ssdcablelay6materialbudgetubeshape, | |
8260 | fSSDCopper); | |
8261 | ssdcablelay6materialbudgetube->SetLineColor(9); | |
8262 | ssdcablesmother->AddNode(ssdcablelay6materialbudgetube,1,ssdcablelay6rightrans); | |
8263 | ssdcablesmother->AddNode(ssdcablelay6materialbudgetube,2,ssdcablesLay6RightTubeToLeftrans); | |
8264 | ||
8265 | TGeoPcon* ssdcablelay6materialbudgetpconshape = | |
8266 | new TGeoPcon(90.0-fgkSSDCableAngle-0.5*ssdcableangle,ssdcableangle,2); | |
8267 | TGeoVolume* ssdcablelay6materialbudgetpcon; | |
8268 | Double_t ssdcablelay6materialbudgetpconrmin[2]; | |
8269 | Double_t ssdcablelay6materialbudgetpconrmax[2]; | |
8270 | Double_t ssdcablelay6materialbudgetpconzsection[2]; | |
8271 | ssdcablelay6materialbudgetpconrmin[0] = ssdcableslay6rightsideradiusmax | |
8272 | + fgkSSDCablesLay5RightSideWaterHeight; | |
8273 | ssdcablelay6materialbudgetpconrmax[0] = ssdcablelay6materialbudgetpconrmin[0] | |
8274 | + fgkSSDCableMaterialBudgetHeight; | |
8275 | ssdcablelay6materialbudgetpconrmin[1] = ssdcablelay6materialbudgetpconrmin[0]; | |
8276 | ssdcablelay6materialbudgetpconrmax[1] = ssdcablelay6materialbudgetpconrmax[0]; | |
8277 | ssdcablelay6materialbudgetpconzsection[0] = fgkEndCapSupportCenterLay6ITSPosition | |
8278 | + fgkEndCapSupportCenterLay6Position | |
8279 | + ssdcablelay6rightsidelength; | |
8280 | ssdcablelay6materialbudgetpconzsection[1] = ssdcableslay5pconwaterzsection[5]; | |
8281 | for(Int_t i=0; i<2;i++) ssdcablelay6materialbudgetpconshape->DefineSection(i, | |
8282 | ssdcablelay6materialbudgetpconzsection[i], | |
8283 | ssdcablelay6materialbudgetpconrmin[i], | |
8284 | ssdcablelay6materialbudgetpconrmax[i]); | |
8285 | ssdcablelay6materialbudgetpcon = new TGeoVolume("SSDCableLay6MaterialBudgetPCon", | |
8286 | ssdcablelay6materialbudgetpconshape,fSSDCopper); | |
8287 | ssdcablelay6materialbudgetpcon->SetLineColor(9); | |
8288 | for(Int_t i=0; i<4; i++){ | |
8289 | ssdcablesmother->AddNode(ssdcablelay6materialbudgetpcon,i+1,ssdcableslay5pconrot[i]); | |
8290 | ssdcablesmother->AddNode(ssdcablelay6materialbudgetpcon,i+5,ssdcablesLay5RightPConToLeftMatrix[i]); | |
8291 | } | |
8292 | //////////////////////////////////// | |
8293 | /* cablescapacity[14] = 2.*ssdcablelay6materialbudgetubeshape->Capacity(); | |
8294 | cablescapacity[15] = 2.*ssdcablelay6materialbudgetpconshape->Capacity(); | |
8295 | Double_t ssdcablesvolume = 0.0; | |
8296 | for(Int_t i=0;i<16;i++) ssdcablesvolume+=cablescapacity[i]; | |
8297 | std::cout << ssdcablesvolume << std::endl;*/ | |
8298 | return ssdcablesmother; | |
8299 | } | |
8300 | //////////////////////////////////////////////////////////////////////////////// | |
8301 | TGeoArb8* AliITSv11GeometrySSD::GetArbShape(TVector3* vertexpos[], Double_t* width, | |
8302 | Double_t height, const char* shapename, Int_t isign) const{ | |
8303 | ///////////////////////////////////////////////////////////// | |
8304 | // Method generating an Arb shape | |
8305 | ///////////////////////////////////////////////////////////// | |
8306 | const Int_t kvertexnumber = 8; | |
8307 | const Int_t ktransvectnumber = 2; | |
8308 | TVector3 vertex[kvertexnumber]; | |
8309 | TVector3 transvector[2]; | |
8310 | for(Int_t i=0; i<ktransvectnumber; i++) transvector[i].SetY(width[i]); | |
8311 | ///////////////////////////////////////////////////////////// | |
8312 | //Setting the vertices for TGeoArb8 | |
8313 | ///////////////////////////////////////////////////////////// | |
8314 | vertex[0] = *vertexpos[0]; | |
8315 | vertex[1] = *vertexpos[1]; | |
8316 | vertex[2] = vertex[1]; | |
8317 | vertex[3] = vertex[0]; | |
8318 | vertex[4] = *vertexpos[2]; | |
8319 | vertex[5] = *vertexpos[3]; | |
8320 | vertex[6] = vertex[5]; | |
8321 | vertex[7] = vertex[4]; | |
8322 | ||
8323 | // NB: order of points is clockwise | |
8324 | if (isign < 0) { | |
8325 | vertex[2] -= transvector[0]; | |
8326 | vertex[3] -= transvector[0]; | |
8327 | vertex[6] -= transvector[1]; | |
8328 | vertex[7] -= transvector[1]; | |
8329 | } | |
8330 | else { | |
8331 | vertex[0] += transvector[0]; | |
8332 | vertex[1] += transvector[0]; | |
8333 | vertex[4] += transvector[1]; | |
8334 | vertex[5] += transvector[1]; | |
8335 | } | |
8336 | ||
8337 | ///////////////////////////////////////////////////////////// | |
8338 | TGeoArb8* arbshape = new TGeoArb8(shapename,0.5*height); | |
8339 | for(Int_t i = 0; i<kvertexnumber;i++) { | |
8340 | arbshape->SetVertex(i,vertex[i].X(),vertex[i].Y()); | |
8341 | } | |
8342 | ||
8343 | return arbshape; | |
8344 | } | |
8345 | /////////////////////////////////////////////////////////////////////////////// | |
8346 | TGeoXtru* AliITSv11GeometrySSD::GetArcShape(Double_t phi, Double_t rmin, | |
8347 | Double_t rmax, Int_t nedges, Double_t height){ | |
8348 | ///////////////////////////////////////////////////////////// | |
8349 | // Method generating Arc shape | |
8350 | ///////////////////////////////////////////////////////////// | |
8351 | const Int_t kvertexnumber = 2*nedges+2; | |
8352 | TGeoXtru* arcshape = new TGeoXtru(2); | |
8353 | TVector3** vertexposition[2]; | |
8354 | for(Int_t i=0; i<2; i++) vertexposition[i] = new TVector3*[nedges+1]; | |
8355 | Double_t angle = 0.; | |
8356 | for(Int_t i=0; i<nedges+1; i++){ | |
8357 | angle = 90.+0.5*phi-i*(phi/nedges); | |
8358 | vertexposition[0][i] = new TVector3(rmin*CosD(angle),rmin*SinD(angle)); | |
8359 | vertexposition[1][i] = new TVector3(rmax*CosD(angle),rmax*SinD(angle)); | |
8360 | } | |
8361 | Double_t *xvertexpoints = new Double_t[kvertexnumber]; | |
8362 | Double_t *yvertexpoints = new Double_t[kvertexnumber]; | |
8363 | for(Int_t i=0; i<kvertexnumber; i++){ | |
8364 | if(i==0){ xvertexpoints[i] = vertexposition[0][i]->X(), | |
8365 | yvertexpoints[i] = vertexposition[0][i]->Y(); | |
8366 | } | |
8367 | else if(i>=1&&i<nedges+2) | |
8368 | { | |
8369 | xvertexpoints[i] = vertexposition[1][i-1]->X(); | |
8370 | yvertexpoints[i] = vertexposition[1][i-1]->Y(); | |
8371 | } | |
8372 | else | |
8373 | { | |
8374 | xvertexpoints[i] = vertexposition[0][kvertexnumber-i]->X(); | |
8375 | yvertexpoints[i] = vertexposition[0][kvertexnumber-i]->Y(); | |
8376 | } | |
8377 | } | |
8378 | arcshape->DefinePolygon(kvertexnumber,xvertexpoints,yvertexpoints); | |
8379 | arcshape->DefineSection(0,-0.5*height); | |
8380 | arcshape->DefineSection(1,0.5*height); | |
8381 | ///////////////////////////////////////////////////////////// | |
8382 | // Deallocating memory | |
8383 | ///////////////////////////////////////////////////////////// | |
8384 | for(Int_t i=0; i<2; i++){ | |
8385 | for(Int_t j=0; j<nedges+1; j++) | |
8386 | delete vertexposition[i][j]; | |
8387 | delete [] vertexposition[i]; | |
8388 | } | |
8389 | delete [] xvertexpoints; | |
8390 | delete [] yvertexpoints; | |
8391 | ///////////////////////////////////////////////////////////// | |
8392 | return arcshape; | |
8393 | } | |
8394 | //////////////////////////////////////////////////////////////////////////////// | |
8395 | TGeoShape* AliITSv11GeometrySSD::GetScrewShape(Double_t* radius,Int_t* edgesnumber,Double_t* section) const { | |
8396 | /////////////////////////////////////////////////////////////////////// | |
8397 | // Method Generating the Screw Shape | |
8398 | // radius[0]: outer radius | |
8399 | // radius[1]: inner radius | |
8400 | // edgesnumber[0]: outer number of edges | |
8401 | // edgesnumber[1]: inner number of edges | |
8402 | // section[0]: lower section position | |
8403 | // section[1]: higher section position | |
8404 | /////////////////////////////////////////////////////////////////////// | |
8405 | Double_t outradius = radius[0]; | |
8406 | Double_t inradius = radius[1]; | |
8407 | Int_t outvertexnumber = edgesnumber[0]; | |
8408 | Int_t invertexnumber = edgesnumber[1]; | |
8409 | Double_t* xscrewvertex = new Double_t[outvertexnumber+invertexnumber]; | |
8410 | Double_t* yscrewvertex = new Double_t[outvertexnumber+invertexnumber]; | |
8411 | for(Int_t i=0; i<outvertexnumber; i++){ | |
8412 | xscrewvertex[i] = outradius*CosD(90.+i*360./outvertexnumber); | |
8413 | yscrewvertex[i] = outradius*SinD(90.+i*360./outvertexnumber); | |
8414 | } | |
8415 | for(Int_t i=0; i<invertexnumber; i++){ | |
8416 | xscrewvertex[outvertexnumber+i] = inradius*CosD(90.+i*360./invertexnumber); | |
8417 | yscrewvertex[outvertexnumber+i] = inradius*SinD(90.+i*360./invertexnumber); | |
8418 | } | |
8419 | TGeoXtru* screwshapeout = new TGeoXtru(2); | |
8420 | screwshapeout->DefinePolygon(outvertexnumber,xscrewvertex,yscrewvertex); | |
8421 | screwshapeout->DefineSection(0,section[0]); | |
8422 | screwshapeout->DefineSection(1,section[1]); | |
8423 | TGeoXtru* screwshapein = new TGeoXtru(2); | |
8424 | screwshapein->DefinePolygon(invertexnumber,&xscrewvertex[outvertexnumber],&yscrewvertex[outvertexnumber]); | |
8425 | screwshapein->DefineSection(0,section[0]-0.01); // make inner part bigger in Z | |
8426 | screwshapein->DefineSection(1,section[1]+0.01); // safer when we subtract it | |
8427 | TGeoSubtraction *snode = new TGeoSubtraction(screwshapeout, screwshapein); | |
8428 | TGeoCompositeShape *screwshape = new TGeoCompositeShape("", snode); | |
8429 | ||
8430 | delete [] xscrewvertex; | |
8431 | delete [] yscrewvertex; | |
8432 | return screwshape; | |
8433 | } | |
8434 | //////////////////////////////////////////////////////////////////////////////// | |
8435 | TGeoShape* AliITSv11GeometrySSD::GetHoleShape(Double_t radius, Int_t nedges, Double_t *section) const { | |
8436 | /////////////////////////////////////////////////////////////////////// | |
8437 | // Method Generating the Hole Shape | |
8438 | // radius of the Hole | |
8439 | // nedges: number of edges to approximate the circle | |
8440 | /////////////////////////////////////////////////////////////////////// | |
8441 | Double_t* xholevertex = new Double_t[nedges]; | |
8442 | Double_t* yholevertex = new Double_t[nedges]; | |
8443 | Double_t z = 0.5*(section[0]+section[1]); | |
8444 | Double_t dz = 0.5*(section[1]-section[0]); | |
8445 | TGeoTranslation *tr = 0; | |
8446 | if (TMath::Abs(z) > TGeoShape::Tolerance()) { | |
8447 | tr = new TGeoTranslation(0.,0.,z); | |
8448 | tr->RegisterYourself(); | |
8449 | } | |
8450 | TGeoBBox *box = new TGeoBBox("",radius,radius,dz); | |
8451 | for(Int_t i=0; i<nedges; i++){ | |
8452 | xholevertex[i] = radius*CosD(i*360./nedges); | |
8453 | yholevertex[i] = radius*SinD(i*360./nedges); | |
8454 | } | |
8455 | TGeoXtru* holeshapeout = new TGeoXtru(2); | |
8456 | holeshapeout->DefinePolygon(nedges,xholevertex,yholevertex); | |
8457 | holeshapeout->DefineSection(0,section[0]-0.01); // make subtracted part larger in Z | |
8458 | holeshapeout->DefineSection(1,section[1]+0.01); | |
8459 | TGeoSubtraction *snode = new TGeoSubtraction(box,holeshapeout,tr); | |
8460 | TGeoCompositeShape *holeshape = new TGeoCompositeShape("", snode); | |
8461 | ||
8462 | delete [] xholevertex; | |
8463 | delete [] yholevertex; | |
8464 | return holeshape; | |
8465 | } | |
8466 | //////////////////////////////////////////////////////////////////////////////// | |
8467 | TVector3* AliITSv11GeometrySSD::GetReflection(TVector3* vector,Double_t* param) const{ | |
8468 | ///////////////////////////////////////////////////////////// | |
8469 | // Given an axis specified by param, it gives the reflection of the point | |
8470 | // respect to the axis | |
8471 | ///////////////////////////////////////////////////////////// | |
8472 | TVector3* n = new TVector3(param[0],param[1],param[2]); | |
8473 | Double_t d = ((*vector)*(*n)+param[3])/n->Mag2(); | |
8474 | TVector3* reflectedvector = new TVector3(*vector-2*d*(*n)); | |
8475 | ///////////////////////////////////////////////////////////// | |
8476 | // Deallocating memory | |
8477 | ///////////////////////////////////////////////////////////// | |
8478 | delete n; | |
8479 | ///////////////////////////////////////////////////////////// | |
8480 | return reflectedvector; | |
8481 | } | |
8482 | //////////////////////////////////////////////////////////////////////////////// | |
8483 | TGeoHMatrix* AliITSv11GeometrySSD::AddTranslationToHMatrix(TGeoHMatrix* ct, | |
8484 | Double_t dx, | |
8485 | Double_t dy, | |
8486 | Double_t dz) const{ | |
8487 | ///////////////////////////////////////////////////////////// | |
8488 | // Add a dx,dy,dz translation to the initial TGeoCombiTrans | |
8489 | ///////////////////////////////////////////////////////////// | |
8490 | TGeoHMatrix* hmatrix = new TGeoHMatrix(*ct); | |
8491 | const Double_t *vect = hmatrix->GetTranslation(); | |
8492 | Double_t newvect[3] = {vect[0]+dx, vect[1]+dy, vect[2]+dz}; | |
8493 | hmatrix->SetTranslation(newvect); | |
8494 | TGeoHMatrix* matrix = new TGeoHMatrix(*hmatrix); | |
8495 | delete hmatrix; | |
8496 | return matrix; | |
8497 | } | |
8498 | //////////////////////////////////////////////////////////////////////////////// | |
8499 | TGeoMedium* AliITSv11GeometrySSD::GetMedium(const char* mediumName) { | |
8500 | ///////////////////////////////////////////////////////////// | |
8501 | // Method returning the Medium type | |
8502 | ///////////////////////////////////////////////////////////// | |
8503 | char ch[100]; | |
8504 | sprintf(ch, "ITS_%s",mediumName); | |
8505 | TGeoMedium* medium = gGeoManager->GetMedium(ch); | |
8506 | if (! medium) | |
8507 | AliError(Form("medium %s not found !\n", mediumName)); | |
8508 | return medium; | |
8509 | } | |
8510 | //////////////////////////////////////////////////////////////////////////////// | |
8511 | void AliITSv11GeometrySSD::CreateMaterials(){ | |
8512 | /////////////////////////////////// | |
8513 | // This part has to be modified | |
8514 | /////////////////////////////////// | |
8515 | /////////////////////////////////// | |
8516 | // Silicon for Sensor | |
8517 | /////////////////////////////////// | |
8518 | fSSDSensorMedium = GetMedium("SI$"); | |
8519 | /////////////////////////////////// | |
8520 | // Silicon Mixture for Sensor | |
8521 | /////////////////////////////////// | |
8522 | fSSDChipMedium = GetMedium("SPD SI CHIP$"); | |
8523 | fSSDChipGlueMedium = GetMedium("EPOXY$"); | |
8524 | /////////////////////////////////// | |
8525 | // Stiffener Components Materials | |
8526 | /////////////////////////////////// | |
8527 | fSSDStiffenerMedium = GetMedium("SDD C AL (M55J)$"); | |
8528 | /////////////////////////// | |
8529 | // Stiffener Connectors | |
8530 | /////////////////////////// | |
8531 | fSSDStiffenerConnectorMedium = GetMedium("COPPER$"); | |
8532 | //////////////////////////////// | |
8533 | // Stiffener 0603-1812 Capacitor | |
8534 | //////////////////////////////// | |
8535 | fSSDStiffener0603CapacitorMedium = GetMedium("SDD ruby sph. Al2O3$"); | |
8536 | fSSDStiffener1812CapacitorMedium = GetMedium("SDD ruby sph. Al2O3$"); | |
8537 | /////////////////////////// | |
8538 | // Stiffener Hybrid Wire | |
8539 | /////////////////////////// | |
8540 | fSSDStiffenerHybridWireMedium = GetMedium("COPPER$"); | |
8541 | /////////////////////////// | |
8542 | // Al for Cooling Block | |
8543 | /////////////////////////// | |
8544 | fSSDAlCoolBlockMedium = GetMedium("AL$"); | |
8545 | ////////////////////////////////////////////////////// | |
8546 | // Kapton and Al for Chip Cable Flex and Ladder Cables | |
8547 | ////////////////////////////////////////////////////// | |
8548 | fSSDKaptonChipCableMedium = GetMedium("KAPTONH(POLYCH2)$"); | |
8549 | fSSDAlTraceChipCableMedium = GetMedium("AL$"); | |
8550 | fSSDKaptonFlexMedium = GetMedium("KAPTONH(POLYCH2)$"); | |
8551 | fSSDAlTraceFlexMedium = GetMedium("AL$"); | |
8552 | fSSDKaptonLadderCableMedium = GetMedium("KAPTONH(POLYCH2)$"); | |
8553 | fSSDAlTraceLadderCableMedium = GetMedium("AL$"); | |
8554 | ///////////////////////////////////////////////////////////////// | |
8555 | // M55J for Carbon Fiber, CarbonFiber Lower Support and Junction | |
8556 | ////////////////////////////////////////////////////////////////// | |
8557 | fSSDCarbonFiberMedium = GetMedium("GEN C (M55J)$"); | |
8558 | ///////////////////////////////////////////////////////////////// | |
8559 | // G10 for Detector Leg, TubeHolder | |
8560 | ////////////////////////////////////////////////////////////////// | |
8561 | fSSDTubeHolderMedium = GetMedium("G10FR4$"); | |
8562 | fSSDSensorSupportMedium = GetMedium("G10FR4$"); | |
8563 | fSSDMountingBlockMedium = GetMedium("G10FR4$"); | |
8564 | fSSDMountingBlockMedium = GetMedium("G10FR4$"); | |
8565 | ///////////////////////////////////////////////////////////////// | |
8566 | // Water and Phynox for Cooling Tube | |
8567 | ////////////////////////////////////////////////////////////////// | |
8568 | fSSDCoolingTubeWater = GetMedium("WATER$"); | |
8569 | fSSDCoolingTubePhynox = GetMedium("INOX$"); | |
8570 | ///////////////////////////////////////////////////////////////////// | |
8571 | // Material for Support Rings | |
8572 | ///////////////////////////////////////////////////////////////////// | |
8573 | fSSDSupportRingAl = GetMedium("AL$"); | |
8574 | fSSDRohaCellCone = GetMedium("ROHACELL$"); | |
8575 | ///////////////////////////////////////////////////////////////////// | |
8576 | fSSDAir = GetMedium("SDD AIR$"); | |
8577 | fSSDCopper = GetMedium("COPPER$"); | |
8578 | fCreateMaterials = kTRUE; | |
8579 | } | |
8580 | ///////////////////////////////////////////////////////////////////// |