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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 | $Log$ | |
17 | Revision 1.34 2003/12/18 04:25:03 bnandi | |
18 | overlap with beam pipe fixed and Gsposp changed to Gspos | |
19 | ||
20 | Revision 1.33 2003/11/03 14:33:26 hristov | |
21 | Correct initialization of static data members | |
22 | ||
23 | Revision 1.32 2003/11/03 11:53:05 bnandi | |
24 | global variables are removed | |
25 | ||
26 | Revision 1.31 2003/10/31 12:25:36 bnandi | |
27 | variable names are changed according to ALICE convention | |
28 | ||
29 | Revision 1.30 2003/10/23 16:32:19 hristov | |
30 | MC-dependent part of AliRun extracted in AliMC (F.Carminati) | |
31 | ||
32 | Revision 1.29 2003/10/13 05:28:59 bnandi | |
33 | gaspmd[2] value changed 0.25->7.0 because of overlap | |
34 | ||
35 | Revision 1.28 2003/10/08 12:59:08 bnandi | |
36 | zpos is positive | |
37 | ||
38 | Revision 1.27 2003/10/08 12:56:58 bnandi | |
39 | gaspmd[2] value changed from 7.0 to 0.25 | |
40 | ||
41 | Revision 1.26 2003/10/03 06:04:10 bnandi | |
42 | z_psa and z_psb bugs fixed | |
43 | ||
44 | Revision 1.25 2003/10/01 11:08:04 bnandi | |
45 | changes for NewIO | |
46 | ||
47 | Revision 1.24 2003/10/01 08:32:51 hristov | |
48 | CurrentTrack replaced by GetCurrentTrackNumber | |
49 | ||
50 | Revision 1.23 2003/10/01 05:07:51 bnandi | |
51 | New geometry in new Alice Coordinate system | |
52 | ||
53 | New rectangular geometry for ALICE PMD - Bedanga Mohanty and Y. P. Viyogi | |
54 | June 2003 | |
55 | */ | |
56 | // | |
57 | /////////////////////////////////////////////////////////////////////////////// | |
58 | // // | |
59 | // Photon Multiplicity Detector Version 1 // | |
60 | // // | |
61 | //Begin_Html | |
62 | /* | |
63 | <img src="picts/AliPMDv1Class.gif"> | |
64 | */ | |
65 | //End_Html | |
66 | // // | |
67 | /////////////////////////////////////////////////////////////////////////////// | |
68 | //// | |
69 | ||
70 | #include "AliPMDv1.h" | |
71 | #include "AliRun.h" | |
72 | #include "AliConst.h" | |
73 | #include "AliMagF.h" | |
74 | #include "Riostream.h" | |
75 | #include <TVirtualMC.h> | |
76 | #include "AliMC.h" | |
77 | ||
78 | const Int_t AliPMDv1::fgkNcolUM1 = 48; // Number of cols in UM, type 1 | |
79 | const Int_t AliPMDv1::fgkNcolUM2 = 96; // Number of cols in UM, type 2 | |
80 | const Int_t AliPMDv1::fgkNrowUM1 = 96; // Number of rows in UM, type 1 | |
81 | const Int_t AliPMDv1::fgkNrowUM2 = 48; // Number of rows in UM, type 2 | |
82 | const Float_t AliPMDv1::fgkCellRadius = 0.25; // Radius of a hexagonal cell | |
83 | const Float_t AliPMDv1::fgkCellWall = 0.02; // Thickness of cell Wall | |
84 | const Float_t AliPMDv1::fgkCellDepth = 0.50; // Gas thickness | |
85 | const Float_t AliPMDv1::fgkBoundary = 0.7; // Thickness of Boundary wall | |
86 | const Float_t AliPMDv1::fgkThBase = 0.3; // Thickness of Base plate | |
87 | const Float_t AliPMDv1::fgkThAir = 0.1; // Thickness of Air | |
88 | const Float_t AliPMDv1::fgkThPCB = 0.16; // Thickness of PCB | |
89 | const Float_t AliPMDv1::fgkThLead = 1.5; // Thickness of Pb | |
90 | const Float_t AliPMDv1::fgkThSteel = 0.5; // Thickness of Steel | |
91 | const Float_t AliPMDv1::fgkGap = 0.025; // Air Gap | |
92 | const Float_t AliPMDv1::fgkZdist = 361.5; // z-position of the detector | |
93 | const Float_t AliPMDv1::fgkSqroot3 = 1.7320508;// Square Root of 3 | |
94 | const Float_t AliPMDv1::fgkSqroot3by2 = 0.8660254;// Square Root of 3 by 2 | |
95 | ||
96 | ClassImp(AliPMDv1) | |
97 | ||
98 | //_____________________________________________________________________________ | |
99 | AliPMDv1::AliPMDv1() | |
100 | { | |
101 | // | |
102 | // Default constructor | |
103 | // | |
104 | fMedSens=0; | |
105 | } | |
106 | ||
107 | //_____________________________________________________________________________ | |
108 | AliPMDv1::AliPMDv1(const char *name, const char *title) | |
109 | : AliPMD(name,title) | |
110 | { | |
111 | // | |
112 | // Standard constructor | |
113 | // | |
114 | fMedSens=0; | |
115 | } | |
116 | ||
117 | //_____________________________________________________________________________ | |
118 | void AliPMDv1::CreateGeometry() | |
119 | { | |
120 | // Create geometry for Photon Multiplicity Detector | |
121 | ||
122 | GetParameters(); | |
123 | CreateSupermodule(); | |
124 | CreatePMD(); | |
125 | } | |
126 | ||
127 | //_____________________________________________________________________________ | |
128 | void AliPMDv1::CreateSupermodule() | |
129 | { | |
130 | // | |
131 | // Creates the geometry of the cells of PMD, places them in supermodule | |
132 | // which is a rectangular object. | |
133 | // Basic unit is ECAR, a hexagonal cell made of Ar+CO2, which is | |
134 | // placed inside another hexagonal cell made of Cu (ECCU) with larger | |
135 | // radius, compared to ECAR. The difference in radius gives the dimension | |
136 | // of half width of each cell wall. | |
137 | // These cells are placed in a rectangular strip which are of 2 types | |
138 | // EST1 and EST2 | |
139 | // 2 types of unit modules are made EUM1 and EUM2 which contains these strips | |
140 | // placed repeatedly | |
141 | // Each supermodule (ESMA, ESMB), made of G10 is filled with following | |
142 | //components. They have 9 unit moudles inside them | |
143 | // ESMA, ESMB are placed in EPMD along with EMPB (Pb converter) | |
144 | // and EMFE (iron support) | |
145 | ||
146 | ||
147 | Int_t i,j; | |
148 | Int_t number; | |
149 | Int_t ihrotm,irotdm; | |
150 | Float_t xb, yb, zb; | |
151 | ||
152 | Int_t *idtmed = fIdtmed->GetArray()-599; | |
153 | ||
154 | AliMatrix(ihrotm, 90., 30., 90., 120., 0., 0.); | |
155 | AliMatrix(irotdm, 90., 180., 90., 270., 180., 0.); | |
156 | ||
157 | // First create the sensitive medium of a hexagon cell (ECAR) | |
158 | // Inner hexagon filled with gas (Ar+CO2) | |
159 | ||
160 | Float_t hexd2[10] = {0.,360.,6,2,-0.25,0.,0.23,0.25,0.,0.23}; | |
161 | hexd2[4] = -fgkCellDepth/2.; | |
162 | hexd2[7] = fgkCellDepth/2.; | |
163 | hexd2[6] = fgkCellRadius - fgkCellWall; | |
164 | hexd2[9] = fgkCellRadius - fgkCellWall; | |
165 | ||
166 | gMC->Gsvolu("ECAR", "PGON", idtmed[604], hexd2,10); | |
167 | gMC->Gsatt("ECAR", "SEEN", 0); | |
168 | ||
169 | // Place the sensitive medium inside a hexagon copper cell (ECCU) | |
170 | // Outer hexagon made of Copper | |
171 | ||
172 | Float_t hexd1[10] = {0.,360.,6,2,-0.25,0.,0.25,0.25,0.,0.25}; | |
173 | hexd1[4] = -fgkCellDepth/2.; | |
174 | hexd1[7] = fgkCellDepth/2.; | |
175 | hexd1[6] = fgkCellRadius; | |
176 | hexd1[9] = fgkCellRadius; | |
177 | ||
178 | gMC->Gsvolu("ECCU", "PGON", idtmed[614], hexd1,10); | |
179 | gMC->Gsatt("ECCU", "SEEN", 0); | |
180 | ||
181 | // Place inner hex (sensitive volume) inside outer hex (copper) | |
182 | ||
183 | gMC->Gspos("ECAR", 1, "ECCU", 0., 0., 0., 0, "ONLY"); | |
184 | ||
185 | // Now create Rectangular TWO strips (EST1, EST2) | |
186 | // of 1 column and 48 or 96 cells length | |
187 | ||
188 | // volume for first strip EST1 made of AIR | |
189 | ||
190 | Float_t dbox1[3]; | |
191 | dbox1[0] = fgkNcolUM1*fgkCellRadius; | |
192 | dbox1[1] = fgkCellRadius/fgkSqroot3by2; | |
193 | dbox1[2] = fgkCellDepth/2.; | |
194 | ||
195 | gMC->Gsvolu("EST1","BOX", idtmed[698], dbox1, 3); | |
196 | gMC->Gsatt("EST1", "SEEN", 0); | |
197 | ||
198 | // volume for second strip EST2 | |
199 | ||
200 | Float_t dbox2[3]; | |
201 | dbox2[0] = fgkNcolUM2*fgkCellRadius; | |
202 | dbox2[1] = dbox1[1]; | |
203 | dbox2[2] = dbox1[2]; | |
204 | ||
205 | gMC->Gsvolu("EST2","BOX", idtmed[698], dbox2, 3); | |
206 | gMC->Gsatt("EST2", "SEEN", 0); | |
207 | ||
208 | // Place hexagonal cells ECCU placed inside EST1 | |
209 | yb = 0.; | |
210 | zb = 0.; | |
211 | xb = -(dbox1[0]) + fgkCellRadius; | |
212 | for (i = 1; i <= fgkNcolUM1; ++i) | |
213 | { | |
214 | number = i; | |
215 | gMC->Gspos("ECCU", number, "EST1", xb,yb,zb, ihrotm, "ONLY"); | |
216 | xb += (fgkCellRadius*2.); | |
217 | } | |
218 | // Place hexagonal cells ECCU placed inside EST2 | |
219 | yb = 0.; | |
220 | zb = 0.; | |
221 | xb = -(dbox2[0]) + fgkCellRadius; | |
222 | for (i = 1; i <= fgkNcolUM2; ++i) | |
223 | { | |
224 | number = i; | |
225 | gMC->Gspos("ECCU", number, "EST2", xb,yb,zb, ihrotm, "ONLY"); | |
226 | xb += (fgkCellRadius*2.); | |
227 | } | |
228 | ||
229 | // 2 types of rectangular shaped unit modules EUM1 and EUM2 (defined by BOX) | |
230 | ||
231 | // Create EUM1 | |
232 | ||
233 | Float_t dbox3[3]; | |
234 | dbox3[0] = dbox1[0]+fgkCellRadius/2.; | |
235 | dbox3[1] = (dbox1[1]*fgkNrowUM1)-(fgkCellRadius*fgkSqroot3*(fgkNrowUM1-1)/6.); | |
236 | dbox3[2] = fgkCellDepth/2.; | |
237 | ||
238 | gMC->Gsvolu("EUM1","BOX", idtmed[698], dbox3, 3); | |
239 | gMC->Gsatt("EUM1", "SEEN", 1); | |
240 | ||
241 | // Place rectangular strips EST1 inside EUM1 unit module | |
242 | ||
243 | yb = -dbox3[1]+dbox1[1]; | |
244 | for (j = 1; j <= fgkNrowUM1; ++j) | |
245 | { | |
246 | if(j%2 == 0) | |
247 | { | |
248 | xb = fgkCellRadius/2.0; | |
249 | } | |
250 | else | |
251 | { | |
252 | xb = -fgkCellRadius/2.0; | |
253 | } | |
254 | number = j; | |
255 | gMC->Gspos("EST1",number, "EUM1", xb, yb , 0. , 0, "MANY"); | |
256 | yb = (-dbox3[1]+dbox1[1])+j*1.0*fgkCellRadius*fgkSqroot3; | |
257 | } | |
258 | ||
259 | // Create EUM2 | |
260 | ||
261 | Float_t dbox4[3]; | |
262 | dbox4[0] = dbox2[0] + fgkCellRadius/2.; | |
263 | dbox4[1] =(dbox2[1]*fgkNrowUM2)-(fgkCellRadius*fgkSqroot3*(fgkNrowUM2-1)/6.); | |
264 | dbox4[2] = dbox3[2]; | |
265 | ||
266 | gMC->Gsvolu("EUM2","BOX", idtmed[698], dbox4, 3); | |
267 | gMC->Gsatt("EUM2", "SEEN", 1); | |
268 | ||
269 | // Place rectangular strips EST2 inside EUM2 unit module | |
270 | ||
271 | yb = -dbox4[1]+dbox2[1]; | |
272 | for (j = 1; j <= fgkNrowUM2; ++j) | |
273 | { | |
274 | if(j%2 == 0) | |
275 | { | |
276 | xb = fgkCellRadius/2.0; | |
277 | } | |
278 | else | |
279 | { | |
280 | xb = -fgkCellRadius/2.0; | |
281 | } | |
282 | number = j; | |
283 | gMC->Gspos("EST2",number, "EUM2", xb, yb , 0. , 0, "MANY"); | |
284 | yb = (-dbox4[1]+dbox2[1])+j*1.0*fgkCellRadius*fgkSqroot3; | |
285 | } | |
286 | ||
287 | // 2 types of Rectangular shaped supermodules (BOX) | |
288 | //each with 6 unit modules | |
289 | ||
290 | // volume for SUPERMODULE ESMA | |
291 | //Space added to provide a gapping for HV between UM's | |
292 | ||
293 | Float_t dboxSM1[3]; | |
294 | dboxSM1[0] = 3.0*dbox3[0]+(2.0*0.025); | |
295 | dboxSM1[1] = 2.0*dbox3[1]+0.025; | |
296 | dboxSM1[2] = fgkCellDepth/2.; | |
297 | ||
298 | gMC->Gsvolu("ESMA","BOX", idtmed[698], dboxSM1, 3); | |
299 | gMC->Gsatt("ESMA", "SEEN", 1); | |
300 | ||
301 | //Position the 6 unit modules in EMSA | |
302 | Float_t xa1,xa2,xa3,ya1,ya2; | |
303 | xa1 = -dboxSM1[0] + dbox3[0]; | |
304 | xa2 = 0.; | |
305 | xa3 = dboxSM1[0] - dbox3[0]; | |
306 | ya1 = dboxSM1[1] - dbox3[1]; | |
307 | ya2 = -dboxSM1[1] + dbox3[1]; | |
308 | ||
309 | gMC->Gspos("EUM1", 1, "ESMA", xa1, ya1, 0., 0, "ONLY"); | |
310 | gMC->Gspos("EUM1", 2, "ESMA", xa2, ya1, 0., 0, "ONLY"); | |
311 | gMC->Gspos("EUM1", 3, "ESMA", xa3, ya1, 0., 0, "ONLY"); | |
312 | gMC->Gspos("EUM1", 4, "ESMA", xa1, ya2, 0., 0, "ONLY"); | |
313 | gMC->Gspos("EUM1", 5, "ESMA", xa2, ya2, 0., 0, "ONLY"); | |
314 | gMC->Gspos("EUM1", 6, "ESMA", xa3, ya2, 0., 0, "ONLY"); | |
315 | ||
316 | ||
317 | // volume for SUPERMODULE ESMB | |
318 | //Space is added to provide a gapping for HV between UM's | |
319 | Float_t dboxSM2[3]; | |
320 | dboxSM2[0] = 2.0*dbox4[0]+0.025; | |
321 | dboxSM2[1] = 3.0*dbox4[1]+(2.0*0.025); | |
322 | dboxSM2[2] = fgkCellDepth/2.; | |
323 | ||
324 | gMC->Gsvolu("ESMB","BOX", idtmed[698], dboxSM2, 3); | |
325 | gMC->Gsatt("ESMB", "SEEN", 1); | |
326 | ||
327 | //Position the 6 unit modules in EMSB | |
328 | Float_t xb1,xb2,yb1,yb2,yb3; | |
329 | xb1 = -dboxSM2[0] +dbox4[0]; | |
330 | xb2 = dboxSM2[0]-dbox4[0]; | |
331 | yb1 = dboxSM2[1]-dbox4[1]; | |
332 | yb2 = 0.; | |
333 | yb3 = -dboxSM2[1]+dbox4[1]; | |
334 | ||
335 | gMC->Gspos("EUM2", 1, "ESMB", xb1, yb1, 0., 0, "ONLY"); | |
336 | gMC->Gspos("EUM2", 2, "ESMB", xb2, yb1, 0., 0, "ONLY"); | |
337 | gMC->Gspos("EUM2", 3, "ESMB", xb1, yb2, 0., 0, "ONLY"); | |
338 | gMC->Gspos("EUM2", 4, "ESMB", xb2, yb2, 0., 0, "ONLY"); | |
339 | gMC->Gspos("EUM2", 5, "ESMB", xb1, yb3, 0., 0, "ONLY"); | |
340 | gMC->Gspos("EUM2", 6, "ESMB", xb2, yb3, 0., 0, "ONLY"); | |
341 | ||
342 | // Make a 3mm thick G10 Base plate for ESMA | |
343 | Float_t dboxG1a[3]; | |
344 | dboxG1a[0] = dboxSM1[0]; | |
345 | dboxG1a[1] = dboxSM1[1]; | |
346 | dboxG1a[2] = fgkThBase/2.; | |
347 | ||
348 | gMC->Gsvolu("EBPA","BOX", idtmed[607], dboxG1a, 3); | |
349 | gMC->Gsatt("EBPA", "SEEN", 1); | |
350 | ||
351 | // Make a 1.6mm thick G10 PCB for ESMA | |
352 | Float_t dboxG2a[3]; | |
353 | dboxG2a[0] = dboxSM1[0]; | |
354 | dboxG2a[1] = dboxSM1[1]; | |
355 | dboxG2a[2] = fgkThPCB/2.; | |
356 | ||
357 | gMC->Gsvolu("EPCA","BOX", idtmed[607], dboxG2a, 3); | |
358 | gMC->Gsatt("EPCA", "SEEN", 1); | |
359 | ||
360 | ||
361 | // Make a Full module EFPA of AIR to place EBPA, | |
362 | // 1mm AIR, EPCA, ESMA,EPCA for PMD | |
363 | ||
364 | Float_t dboxAlla[3]; | |
365 | dboxAlla[0] = dboxSM1[0]; | |
366 | dboxAlla[1] = dboxSM1[1]; | |
367 | dboxAlla[2] = (fgkThBase+fgkThAir+fgkThPCB+dboxSM1[2]+fgkThPCB)/2.; | |
368 | ||
369 | gMC->Gsvolu("EFPA","BOX", idtmed[698], dboxAlla, 3); | |
370 | gMC->Gsatt("EFPA", "SEEN", 1); | |
371 | ||
372 | ||
373 | // Make a Full module EFCA of AIR to place EBPA, | |
374 | // 1mm AIR, EPCA, ESMA,EPC for CPV | |
375 | Float_t dboxAlla2[3]; | |
376 | dboxAlla2[0] = dboxSM1[0]; | |
377 | dboxAlla2[1] = dboxSM1[1]; | |
378 | dboxAlla2[2] = (fgkThBase+fgkThAir+fgkThPCB+dboxSM1[2]+fgkThPCB)/2.; | |
379 | ||
380 | gMC->Gsvolu("EFCA","BOX", idtmed[698], dboxAlla2, 3); | |
381 | gMC->Gsatt("EFCA", "SEEN", 1); | |
382 | ||
383 | // Now place everything in EFPA for PMD | |
384 | ||
385 | Float_t zbpa,zpcba1,zpcba2,zsma; | |
386 | zpcba1 = - dboxAlla[2]+fgkThPCB/2.0; | |
387 | gMC->Gspos("EPCA", 1, "EFPA", 0., 0., zpcba1, 0, "ONLY"); | |
388 | zsma = zpcba1+dboxSM1[2]; | |
389 | gMC->Gspos("ESMA", 1, "EFPA", 0., 0., zsma, 0, "ONLY"); | |
390 | zpcba2 = zsma+fgkThPCB/2.0; | |
391 | gMC->Gspos("EPCA", 2, "EFPA", 0., 0., zpcba2, 0, "ONLY"); | |
392 | zbpa = zpcba2+fgkThAir+fgkThBase/2.0; | |
393 | gMC->Gspos("EBPA", 1, "EFPA", 0., 0., zbpa, 0, "ONLY"); | |
394 | ||
395 | // Now place everything in EFCA for CPV | |
396 | ||
397 | Float_t zbpa2,zpcba12,zpcba22,zsma2; | |
398 | zbpa2 = - dboxAlla2[2]+fgkThBase/2.0; | |
399 | gMC->Gspos("EBPA", 1, "EFCA", 0., 0., zbpa2, 0, "ONLY"); | |
400 | zpcba12 = zbpa2+fgkThAir+fgkThPCB/2.0; | |
401 | gMC->Gspos("EPCA", 1, "EFCA", 0., 0., zpcba12, 0, "ONLY"); | |
402 | zsma2 = zpcba12+dboxSM1[2]; | |
403 | gMC->Gspos("ESMA", 1, "EFCA", 0., 0., zsma2, 0, "ONLY"); | |
404 | zpcba22 = zsma2+fgkThPCB/2.0; | |
405 | gMC->Gspos("EPCA", 2, "EFCA", 0., 0., zpcba22, 0, "ONLY"); | |
406 | ||
407 | ||
408 | ||
409 | // Make a 3mm thick G10 Base plate for ESMB | |
410 | Float_t dboxG1b[3]; | |
411 | dboxG1b[0] = dboxSM2[0]; | |
412 | dboxG1b[1] = dboxSM2[1]; | |
413 | dboxG1b[2] = fgkThBase/2.; | |
414 | ||
415 | gMC->Gsvolu("EBPB","BOX", idtmed[607], dboxG1b, 3); | |
416 | gMC->Gsatt("EBPB", "SEEN", 1); | |
417 | ||
418 | // Make a 1.6mm thick G10 PCB for ESMB | |
419 | Float_t dboxG2b[3]; | |
420 | dboxG2b[0] = dboxSM2[0]; | |
421 | dboxG2b[1] = dboxSM2[1]; | |
422 | dboxG2b[2] = fgkThPCB/2.; | |
423 | ||
424 | gMC->Gsvolu("EPCB","BOX", idtmed[607], dboxG2b, 3); | |
425 | gMC->Gsatt("EPCB", "SEEN", 1); | |
426 | ||
427 | // Make a Full module EFPB of AIR to place EBPB, | |
428 | //1mm AIR, EPCB, ESMB,EPCB for PMD | |
429 | Float_t dboxAllb[3]; | |
430 | dboxAllb[0] = dboxSM2[0]; | |
431 | dboxAllb[1] = dboxSM2[1]; | |
432 | dboxAllb[2] = (fgkThBase+fgkThAir+fgkThPCB+dboxSM2[2]+fgkThPCB)/2.; | |
433 | ||
434 | gMC->Gsvolu("EFPB","BOX", idtmed[698], dboxAllb, 3); | |
435 | gMC->Gsatt("EFPB", "SEEN", 1); | |
436 | ||
437 | // Make a Full module EFCB of AIR to place EBPB, | |
438 | //1mm AIR, EPCB, ESMB,EPCB for CPV | |
439 | Float_t dboxAllb2[3]; | |
440 | dboxAllb2[0] = dboxSM2[0]; | |
441 | dboxAllb2[1] = dboxSM2[1]; | |
442 | dboxAllb2[2] = (fgkThBase+fgkThAir+fgkThPCB+dboxSM2[2]+fgkThPCB)/2.; | |
443 | ||
444 | gMC->Gsvolu("EFCB","BOX", idtmed[698], dboxAllb2, 3); | |
445 | gMC->Gsatt("EFCB", "SEEN", 1); | |
446 | ||
447 | ||
448 | // Now place everything in EFPB for PMD | |
449 | ||
450 | Float_t zbpb,zpcbb1,zpcbb2,zsmb; | |
451 | zpcbb1 = - dboxAllb[2]+fgkThPCB/2.0; | |
452 | gMC->Gspos("EPCB", 1, "EFPB", 0., 0., zpcbb1, 0, "ONLY"); | |
453 | zsmb = zpcbb1+dboxSM2[2]; | |
454 | gMC->Gspos("ESMB", 1, "EFPB", 0., 0., zsmb, 0, "ONLY"); | |
455 | zpcbb2 = zsmb+fgkThPCB/2.0; | |
456 | gMC->Gspos("EPCB", 2, "EFPB", 0., 0., zpcbb2, 0, "ONLY"); | |
457 | zbpb = zpcbb2+fgkThAir+fgkThBase/2.0; | |
458 | gMC->Gspos("EBPB", 1, "EFPB", 0., 0., zbpb, 0, "ONLY"); | |
459 | ||
460 | ||
461 | // Now place everything in EFCB for CPV | |
462 | ||
463 | Float_t zbpb2,zpcbb12,zpcbb22,zsmb2; | |
464 | zbpb2 = - dboxAllb2[2]+fgkThBase/2.0; | |
465 | gMC->Gspos("EBPB", 1, "EFCB", 0., 0., zbpb2, 0, "ONLY"); | |
466 | zpcbb12 = zbpb2+0.1+fgkThPCB/2.0; | |
467 | gMC->Gspos("EPCB", 1, "EFCB", 0., 0., zpcbb12, 0, "ONLY"); | |
468 | zsmb2 = zpcbb12+dboxSM2[2]; | |
469 | gMC->Gspos("ESMB", 1, "EFCB", 0., 0., zsmb2, 0, "ONLY"); | |
470 | zpcbb22 = zsmb2+fgkThPCB/2.0; | |
471 | gMC->Gspos("EPCB", 2, "EFCB", 0., 0., zpcbb22, 0, "ONLY"); | |
472 | ||
473 | ||
474 | // Master MODULE EMPA of aluminum for PMD | |
475 | fDboxmm1[0] = dboxSM1[0]+fgkBoundary; | |
476 | fDboxmm1[1] = dboxSM1[1]+fgkBoundary; | |
477 | fDboxmm1[2] = dboxAlla[2]; | |
478 | ||
479 | gMC->Gsvolu("EMPA","BOX", idtmed[603], fDboxmm1, 3); | |
480 | gMC->Gsatt("EMPA", "SEEN", 1); | |
481 | ||
482 | // Master MODULE EMCA of aluminum for CPV | |
483 | fDboxmm12[0] = dboxSM1[0]+fgkBoundary; | |
484 | fDboxmm12[1] = dboxSM1[1]+fgkBoundary; | |
485 | fDboxmm12[2] = dboxAlla[2]; | |
486 | ||
487 | gMC->Gsvolu("EMCA","BOX", idtmed[603], fDboxmm12, 3); | |
488 | gMC->Gsatt("EMCA", "SEEN", 1); | |
489 | ||
490 | ||
491 | //Position EFMA inside EMMA for PMD and CPV | |
492 | gMC->Gspos("EFPA", 1, "EMPA", 0., 0., 0., 0, "ONLY"); | |
493 | gMC->Gspos("EFCA", 1, "EMCA", 0., 0., 0., 0, "ONLY"); | |
494 | ||
495 | ||
496 | // Master MODULE EMPB of aluminum for PMD | |
497 | fDboxmm2[0] = dboxSM2[0]+fgkBoundary; | |
498 | fDboxmm2[1] = dboxSM2[1]+fgkBoundary; | |
499 | fDboxmm2[2] = dboxAllb[2]; | |
500 | ||
501 | gMC->Gsvolu("EMPB","BOX", idtmed[603], fDboxmm2, 3); | |
502 | gMC->Gsatt("EMPB", "SEEN", 1); | |
503 | ||
504 | // Master MODULE EMCB of aluminum for CPV | |
505 | fDboxmm22[0] = dboxSM2[0]+fgkBoundary; | |
506 | fDboxmm22[1] = dboxSM2[1]+fgkBoundary; | |
507 | fDboxmm22[2] = dboxAllb[2]; | |
508 | ||
509 | gMC->Gsvolu("EMCB","BOX", idtmed[603], fDboxmm22, 3); | |
510 | gMC->Gsatt("EMCB", "SEEN", 1); | |
511 | ||
512 | //Position EFMB inside EMMB | |
513 | gMC->Gspos("EFPB", 1, "EMPB", 0., 0., 0., 0, "ONLY"); | |
514 | gMC->Gspos("EFCB", 1, "EMCB", 0., 0., 0., 0, "ONLY"); | |
515 | } | |
516 | ||
517 | //_____________________________________________________________________________ | |
518 | ||
519 | void AliPMDv1::CreatePMD() | |
520 | { | |
521 | // | |
522 | // Create final detector from supermodules | |
523 | // -- Author : Bedanga and Viyogi June 2003 | |
524 | ||
525 | Float_t xp, yp, zp; | |
526 | Int_t jhrot12,jhrot13, irotdm; | |
527 | Int_t *idtmed = fIdtmed->GetArray()-599; | |
528 | ||
529 | //VOLUMES Names : begining with "E" for all PMD volumes, | |
530 | ||
531 | // --- DEFINE Iron, and lead volumes for SM A | |
532 | ||
533 | Float_t dboxPba[3]; | |
534 | dboxPba[0] = fSMLengthax; | |
535 | dboxPba[1] = fSMLengthay; | |
536 | dboxPba[2] = fgkThLead/2.; | |
537 | ||
538 | gMC->Gsvolu("EPBA","BOX", idtmed[600], dboxPba, 3); | |
539 | gMC->Gsatt ("EPBA", "SEEN", 0); | |
540 | ||
541 | // Fe Support | |
542 | Float_t dboxFea[3]; | |
543 | dboxFea[0] = fSMLengthax; | |
544 | dboxFea[1] = fSMLengthay; | |
545 | dboxFea[2] = fgkThSteel/2.; | |
546 | ||
547 | gMC->Gsvolu("EFEA","BOX", idtmed[618], dboxFea, 3); | |
548 | gMC->Gsatt ("EFEA", "SEEN", 0); | |
549 | ||
550 | // --- DEFINE Iron, and lead volumes for SM B | |
551 | ||
552 | Float_t dboxPbb[3]; | |
553 | dboxPbb[0] = fSMLengthbx; | |
554 | dboxPbb[1] = fSMLengthby; | |
555 | dboxPbb[2] = fgkThLead/2.; | |
556 | ||
557 | gMC->Gsvolu("EPBB","BOX", idtmed[600], dboxPbb, 3); | |
558 | gMC->Gsatt ("EPBB", "SEEN", 0); | |
559 | ||
560 | // Fe Support | |
561 | Float_t dboxFeb[3]; | |
562 | dboxFeb[0] = fSMLengthbx; | |
563 | dboxFeb[1] = fSMLengthby; | |
564 | dboxFeb[2] = fgkThSteel/2.; | |
565 | ||
566 | gMC->Gsvolu("EFEB","BOX", idtmed[618], dboxFeb, 3); | |
567 | gMC->Gsatt ("EFEB", "SEEN", 0); | |
568 | ||
569 | AliMatrix(irotdm, 90., 0., 90., 90., 180., 0.); | |
570 | AliMatrix(jhrot12, 90., 180., 90., 270., 0., 0.); | |
571 | AliMatrix(jhrot13, 90., 240., 90., 330., 0., 0.); | |
572 | ||
573 | // Gaspmd, the dimension of RECTANGULAR mother volume of PMD, | |
574 | // Four mother volumes EPM1,EPM2 for A-type and | |
575 | // volumes EPM3 and EPM4 for B-type. Four to create a hole | |
576 | // and avoid overlap with beam pipe | |
577 | ||
578 | Float_t gaspmd[3]; | |
579 | gaspmd[0] = fDboxmm1[0]; | |
580 | gaspmd[1] = fDboxmm1[1]; | |
581 | gaspmd[2] = 7.0; // for the entire detector, including connectors etc | |
582 | ||
583 | gMC->Gsvolu("EPM1", "BOX", idtmed[698], gaspmd, 3); | |
584 | gMC->Gsatt("EPM1", "SEEN", 1); | |
585 | gMC->Gsvolu("EPM2", "BOX", idtmed[698], gaspmd, 3); | |
586 | gMC->Gsatt("EPM2", "SEEN", 1); | |
587 | ||
588 | //Complete detector for Type A | |
589 | //Position Super modules type A for both CPV and PMD in EPMD | |
590 | Float_t zpsa,zpba,zfea,zcva; | |
591 | ||
592 | // zpsa = - gaspmd[2] + fSMthick/2.; | |
593 | // -2.5 is given to place PMD at -361.5 | |
594 | // BM : In future after putting proper electronics | |
595 | // -2.5 will be replaced by -gaspmd[2] | |
596 | zpsa = -2.5 + fSMthick/2.; | |
597 | ||
598 | gMC->Gspos("EMPA", 1, "EPM1", 0., 0., zpsa, 0, "ONLY"); | |
599 | gMC->Gspos("EMPA", 2, "EPM2", 0., 0., zpsa, jhrot12, "ONLY"); | |
600 | zpba=zpsa+fSMthick/2.+dboxPba[2]; | |
601 | gMC->Gspos("EPBA", 1, "EPM1", 0., 0., zpba, 0, "ONLY"); | |
602 | gMC->Gspos("EPBA", 2, "EPM2", 0., 0., zpba, 0, "ONLY"); | |
603 | zfea=zpba+dboxPba[2]+dboxFea[2]; | |
604 | gMC->Gspos("EFEA", 1, "EPM1", 0., 0., zfea, 0, "ONLY"); | |
605 | gMC->Gspos("EFEA", 2, "EPM2", 0., 0., zfea, 0, "ONLY"); | |
606 | zcva=zfea+dboxFea[2]+fSMthick/2.; | |
607 | gMC->Gspos("EMCA", 1, "EPM1", 0., 0., zcva, 0, "ONLY"); | |
608 | gMC->Gspos("EMCA", 2, "EPM2", 0., 0., zcva, jhrot12, "ONLY"); | |
609 | ||
610 | gaspmd[0] = fDboxmm2[0]; | |
611 | gaspmd[1] = fDboxmm2[1]; | |
612 | gaspmd[2] = 7.0; // for the entire detector, including connectors etc | |
613 | ||
614 | gMC->Gsvolu("EPM3", "BOX", idtmed[698], gaspmd, 3); | |
615 | gMC->Gsatt("EPM3", "SEEN", 1); | |
616 | gMC->Gsvolu("EPM4", "BOX", idtmed[698], gaspmd, 3); | |
617 | gMC->Gsatt("EPM4", "SEEN", 1); | |
618 | ||
619 | //Complete detector for Type B | |
620 | //Position Super modules type B for both CPV and PMD in EPMD | |
621 | Float_t zpsb,zpbb,zfeb,zcvb; | |
622 | // zpsb = - gaspmd[2] + fSMthick/2.; | |
623 | // -2.5 is given to place PMD at -361.5 | |
624 | // BM: In future after putting proper electronics | |
625 | // -2.5 will be replaced by -gaspmd[2] | |
626 | ||
627 | zpsb = -2.5 + fSMthick/2.; | |
628 | gMC->Gspos("EMPB", 3, "EPM3", 0., 0., zpsb, 0, "ONLY"); | |
629 | gMC->Gspos("EMPB", 4, "EPM4", 0., 0., zpsb, jhrot12, "ONLY"); | |
630 | zpbb=zpsb+fSMthick/2.+dboxPbb[2]; | |
631 | gMC->Gspos("EPBB", 3, "EPM3", 0., 0., zpbb, 0, "ONLY"); | |
632 | gMC->Gspos("EPBB", 4, "EPM4", 0., 0., zpbb, 0, "ONLY"); | |
633 | zfeb=zpbb+dboxPbb[2]+dboxFeb[2]; | |
634 | gMC->Gspos("EFEB", 3, "EPM3", 0., 0., zfeb, 0, "ONLY"); | |
635 | gMC->Gspos("EFEB", 4, "EPM4", 0., 0., zfeb, 0, "ONLY"); | |
636 | zcvb=zfeb+dboxFeb[2]+fSMthick/2.; | |
637 | gMC->Gspos("EMCB", 3, "EPM3", 0., 0., zcvb, 0, "ONLY"); | |
638 | gMC->Gspos("EMCB", 4, "EPM4", 0., 0., zcvb, jhrot12, "ONLY"); | |
639 | ||
640 | // --- Place the EPMD in ALICE | |
641 | xp = 0.; | |
642 | yp = 0.; | |
643 | zp = fgkZdist; | |
644 | ||
645 | Float_t xsma,ysma; | |
646 | Float_t xsmb,ysmb; | |
647 | xsma = -fSMLengthbx; | |
648 | ysma = fSMLengthby; | |
649 | xsmb = -fSMLengthax; | |
650 | ysmb = -fSMLengthay; | |
651 | ||
652 | //Position Full PMD in ALICE | |
653 | gMC->Gspos("EPM1", 1, "ALIC", xsma,ysma,zp, 0, "ONLY"); | |
654 | gMC->Gspos("EPM2", 1, "ALIC", -xsma,-ysma,zp, 0, "ONLY"); | |
655 | gMC->Gspos("EPM3", 1, "ALIC", xsmb,ysmb,zp, 0, "ONLY"); | |
656 | gMC->Gspos("EPM4", 1, "ALIC", -xsmb,-ysmb,zp, 0, "ONLY"); | |
657 | ||
658 | } | |
659 | ||
660 | ||
661 | //_____________________________________________________________________________ | |
662 | void AliPMDv1::DrawModule() const | |
663 | { | |
664 | // Draw a shaded view of the Photon Multiplicity Detector | |
665 | // | |
666 | // cout << " Inside Draw Modules " << endl; | |
667 | ||
668 | gMC->Gsatt("*", "seen", -1); | |
669 | gMC->Gsatt("alic", "seen", 0); | |
670 | // | |
671 | // Set the visibility of the components | |
672 | // | |
673 | gMC->Gsatt("ECAR","seen",0); | |
674 | gMC->Gsatt("ECCU","seen",1); | |
675 | gMC->Gsatt("EST1","seen",1); | |
676 | gMC->Gsatt("EST2","seen",1); | |
677 | gMC->Gsatt("EUM1","seen",1); | |
678 | gMC->Gsatt("EUM2","seen",1); | |
679 | gMC->Gsatt("ESMA","seen",1); | |
680 | gMC->Gsatt("EPMD","seen",1); | |
681 | // | |
682 | gMC->Gdopt("hide", "on"); | |
683 | gMC->Gdopt("shad", "on"); | |
684 | gMC->Gsatt("*", "fill", 7); | |
685 | gMC->SetClipBox("."); | |
686 | gMC->SetClipBox("*", 0, 3000, -3000, 3000, -6000, 6000); | |
687 | gMC->DefaultRange(); | |
688 | gMC->Gdraw("alic", 40, 30, 0, 22, 20.5, .02, .02); | |
689 | gMC->Gdhead(1111, "Photon Multiplicity Detector Version 1"); | |
690 | ||
691 | //gMC->Gdman(17, 5, "MAN"); | |
692 | gMC->Gdopt("hide", "off"); | |
693 | ||
694 | cout << " Outside Draw Modules " << endl; | |
695 | } | |
696 | ||
697 | //_____________________________________________________________________________ | |
698 | void AliPMDv1::CreateMaterials() | |
699 | { | |
700 | // Create materials for the PMD | |
701 | // | |
702 | // ORIGIN : Y. P. VIYOGI | |
703 | // | |
704 | // cout << " Inside create materials " << endl; | |
705 | // --- The Argon- CO2 mixture --- | |
706 | Float_t ag[2] = { 39.95, 44.01 }; | |
707 | Float_t zg[2] = { 18., 22. }; | |
708 | Float_t wg[2] = { 0.7,0.3 }; | |
709 | Float_t dar = 0.001782; // --- Ar density in g/cm3 --- | |
710 | // --- CO2 --- | |
711 | Float_t ac[2] = { 12.,16. }; | |
712 | Float_t zc[2] = { 6.,8. }; | |
713 | Float_t wc[2] = { 1.,2. }; | |
714 | Float_t dc = 0.001977; | |
715 | Float_t dco = 0.002; // --- CO2 density in g/cm3 --- | |
716 | ||
717 | Float_t absl, radl, a, d, z; | |
718 | Float_t dg; | |
719 | Float_t x0ar; | |
720 | Float_t buf[1]; | |
721 | Int_t nbuf; | |
722 | Float_t asteel[4] = { 55.847,51.9961,58.6934,28.0855 }; | |
723 | Float_t zsteel[4] = { 26.,24.,28.,14. }; | |
724 | Float_t wsteel[4] = { .715,.18,.1,.005 }; | |
725 | ||
726 | Int_t *idtmed = fIdtmed->GetArray()-599; | |
727 | Int_t isxfld = gAlice->Field()->Integ(); | |
728 | Float_t sxmgmx = gAlice->Field()->Max(); | |
729 | ||
730 | // --- Define the various materials for GEANT --- | |
731 | AliMaterial(1, "Pb $", 207.19, 82., 11.35, .56, 18.5); | |
732 | x0ar = 19.55 / dar; | |
733 | AliMaterial(2, "Argon$", 39.95, 18., dar, x0ar, 6.5e4); | |
734 | AliMixture(3, "CO2 $", ac, zc, dc, -2, wc); | |
735 | AliMaterial(4, "Al $", 26.98, 13., 2.7, 8.9, 18.5); | |
736 | AliMaterial(6, "Fe $", 55.85, 26., 7.87, 1.76, 18.5); | |
737 | AliMaterial(7, "W $", 183.85, 74., 19.3, .35, 10.3); | |
738 | AliMaterial(8, "G10 $", 20., 10., 1.7, 19.4, 999.); | |
739 | AliMaterial(9, "SILIC$", 28.09, 14., 2.33, 9.36, 45.); | |
740 | AliMaterial(10, "Be $", 9.01, 4., 1.848, 35.3, 36.7); | |
741 | AliMaterial(15, "Cu $", 63.54, 29., 8.96, 1.43, 15.); | |
742 | AliMaterial(16, "C $", 12.01, 6., 2.265, 18.8, 49.9); | |
743 | AliMaterial(17, "POLYCARBONATE $", 20., 10., 1.2, 34.6, 999.); | |
744 | AliMixture(19, "STAINLESS STEEL$", asteel, zsteel, 7.88, 4, wsteel); | |
745 | // AliMaterial(31, "Xenon$", 131.3, 54., dxe, x0xe, 6.5e4); | |
746 | ||
747 | AliMaterial(96, "MYLAR$", 8.73, 4.55, 1.39, 28.7, 62.); | |
748 | AliMaterial(97, "CONCR$", 20., 10., 2.5, 10.7, 40.); | |
749 | AliMaterial(98, "Vacum$", 1e-9, 1e-9, 1e-9, 1e16, 1e16); | |
750 | AliMaterial(99, "Air $", 14.61, 7.3, .0012, 30420., 67500.); | |
751 | ||
752 | // define gas-mixtures | |
753 | ||
754 | char namate[21]=""; | |
755 | gMC->Gfmate((*fIdmate)[3], namate, a, z, d, radl, absl, buf, nbuf); | |
756 | ag[1] = a; | |
757 | zg[1] = z; | |
758 | dg = (dar * 4 + dco) / 5; | |
759 | AliMixture(5, "ArCO2$", ag, zg, dg, 2, wg); | |
760 | ||
761 | // Define tracking media | |
762 | AliMedium(1, "Pb conv.$", 1, 0, 0, isxfld, sxmgmx, 1., .1, .01, .1); | |
763 | AliMedium(7, "W conv.$", 7, 0, 0, isxfld, sxmgmx, 1., .1, .01, .1); | |
764 | AliMedium(8, "G10plate$", 8, 0, 0, isxfld, sxmgmx, 1., .1, .01, .1); | |
765 | AliMedium(4, "Al $", 4, 0, 0, isxfld, sxmgmx, .1, .1, .01, .1); | |
766 | AliMedium(6, "Fe $", 6, 0, 0, isxfld, sxmgmx, .1, .1, .01, .1); | |
767 | AliMedium(5, "ArCO2 $", 5, 1, 0, isxfld, sxmgmx, .1, .1, .1, .1); | |
768 | AliMedium(9, "SILICON $", 9, 1, 0, isxfld, sxmgmx, .1, .1, .1, .1); | |
769 | AliMedium(10, "Be $", 10, 0, 0, isxfld, sxmgmx, .1, .1, .01, .1); | |
770 | AliMedium(98, "Vacuum $", 98, 0, 0, isxfld, sxmgmx, 1., .1, .1, 10); | |
771 | AliMedium(99, "Air gaps$", 99, 0, 0, isxfld, sxmgmx, 1., .1, .1, .1); | |
772 | AliMedium(15, "Cu $", 15, 0, 0, isxfld, sxmgmx, .1, .1, .01, .1); | |
773 | AliMedium(16, "C $", 16, 0, 0, isxfld, sxmgmx, .1, .1, .01, .1); | |
774 | AliMedium(17, "PLOYCARB$", 17, 0, 0, isxfld, sxmgmx, .1, .1, .01, .1); | |
775 | AliMedium(19, " S steel$", 19, 0, 0, isxfld, sxmgmx, 1., .1, .01, .1); | |
776 | // AliMedium(31, "Xenon $", 31, 1, 0, isxfld, sxmgmx, .1, .1, .1, .1); | |
777 | ||
778 | // --- Generate explicitly delta rays in the iron, aluminium and lead --- | |
779 | gMC->Gstpar(idtmed[600], "LOSS", 3.); | |
780 | gMC->Gstpar(idtmed[600], "DRAY", 1.); | |
781 | ||
782 | gMC->Gstpar(idtmed[603], "LOSS", 3.); | |
783 | gMC->Gstpar(idtmed[603], "DRAY", 1.); | |
784 | ||
785 | gMC->Gstpar(idtmed[604], "LOSS", 3.); | |
786 | gMC->Gstpar(idtmed[604], "DRAY", 1.); | |
787 | ||
788 | gMC->Gstpar(idtmed[605], "LOSS", 3.); | |
789 | gMC->Gstpar(idtmed[605], "DRAY", 1.); | |
790 | ||
791 | gMC->Gstpar(idtmed[606], "LOSS", 3.); | |
792 | gMC->Gstpar(idtmed[606], "DRAY", 1.); | |
793 | ||
794 | gMC->Gstpar(idtmed[607], "LOSS", 3.); | |
795 | gMC->Gstpar(idtmed[607], "DRAY", 1.); | |
796 | ||
797 | // --- Energy cut-offs in the Pb and Al to gain time in tracking --- | |
798 | // --- without affecting the hit patterns --- | |
799 | gMC->Gstpar(idtmed[600], "CUTGAM", 1e-4); | |
800 | gMC->Gstpar(idtmed[600], "CUTELE", 1e-4); | |
801 | gMC->Gstpar(idtmed[600], "CUTNEU", 1e-4); | |
802 | gMC->Gstpar(idtmed[600], "CUTHAD", 1e-4); | |
803 | gMC->Gstpar(idtmed[605], "CUTGAM", 1e-4); | |
804 | gMC->Gstpar(idtmed[605], "CUTELE", 1e-4); | |
805 | gMC->Gstpar(idtmed[605], "CUTNEU", 1e-4); | |
806 | gMC->Gstpar(idtmed[605], "CUTHAD", 1e-4); | |
807 | gMC->Gstpar(idtmed[606], "CUTGAM", 1e-4); | |
808 | gMC->Gstpar(idtmed[606], "CUTELE", 1e-4); | |
809 | gMC->Gstpar(idtmed[606], "CUTNEU", 1e-4); | |
810 | gMC->Gstpar(idtmed[606], "CUTHAD", 1e-4); | |
811 | gMC->Gstpar(idtmed[603], "CUTGAM", 1e-4); | |
812 | gMC->Gstpar(idtmed[603], "CUTELE", 1e-4); | |
813 | gMC->Gstpar(idtmed[603], "CUTNEU", 1e-4); | |
814 | gMC->Gstpar(idtmed[603], "CUTHAD", 1e-4); | |
815 | gMC->Gstpar(idtmed[609], "CUTGAM", 1e-4); | |
816 | gMC->Gstpar(idtmed[609], "CUTELE", 1e-4); | |
817 | gMC->Gstpar(idtmed[609], "CUTNEU", 1e-4); | |
818 | gMC->Gstpar(idtmed[609], "CUTHAD", 1e-4); | |
819 | ||
820 | // --- Prevent particles stopping in the gas due to energy cut-off --- | |
821 | gMC->Gstpar(idtmed[604], "CUTGAM", 1e-5); | |
822 | gMC->Gstpar(idtmed[604], "CUTELE", 1e-5); | |
823 | gMC->Gstpar(idtmed[604], "CUTNEU", 1e-5); | |
824 | gMC->Gstpar(idtmed[604], "CUTHAD", 1e-5); | |
825 | gMC->Gstpar(idtmed[604], "CUTMUO", 1e-5); | |
826 | ||
827 | cout << " Outside create materials " << endl; | |
828 | ||
829 | } | |
830 | ||
831 | //_____________________________________________________________________________ | |
832 | void AliPMDv1::Init() | |
833 | { | |
834 | // | |
835 | // Initialises PMD detector after it has been built | |
836 | // | |
837 | ||
838 | Int_t i; | |
839 | // gAliKdet=1; | |
840 | // | |
841 | cout << " Inside Init " << endl; | |
842 | if(fDebug) { | |
843 | printf("\n%s: ",ClassName()); | |
844 | for(i=0;i<35;i++) printf("*"); | |
845 | printf(" PMD_INIT "); | |
846 | for(i=0;i<35;i++) printf("*"); | |
847 | printf("\n%s: ",ClassName()); | |
848 | printf(" PMD simulation package (v1) initialised\n"); | |
849 | printf("%s: parameters of pmd\n",ClassName()); | |
850 | printf("%s: %10.2f %10.2f %10.2f \ | |
851 | %10.2f\n",ClassName(),fgkCellRadius,fgkCellWall,fgkCellDepth,fgkZdist ); | |
852 | printf("%s: ",ClassName()); | |
853 | for(i=0;i<80;i++) printf("*"); | |
854 | printf("\n"); | |
855 | } | |
856 | ||
857 | Int_t *idtmed = fIdtmed->GetArray()-599; | |
858 | fMedSens=idtmed[605-1]; | |
859 | ||
860 | } | |
861 | ||
862 | //_____________________________________________________________________________ | |
863 | void AliPMDv1::StepManager() | |
864 | { | |
865 | // | |
866 | // Called at each step in the PMD | |
867 | // | |
868 | ||
869 | Int_t copy; | |
870 | Float_t hits[4], destep; | |
871 | Float_t center[3] = {0,0,0}; | |
872 | Int_t vol[8]; | |
873 | //const char *namep; | |
874 | ||
875 | if(gMC->GetMedium() == fMedSens && (destep = gMC->Edep())) { | |
876 | ||
877 | gMC->CurrentVolID(copy); | |
878 | //namep=gMC->CurrentVolName(); | |
879 | //printf("Current vol is %s \n",namep); | |
880 | vol[0]=copy; | |
881 | ||
882 | gMC->CurrentVolOffID(1,copy); | |
883 | //namep=gMC->CurrentVolOffName(1); | |
884 | //printf("Current vol 11 is %s \n",namep); | |
885 | vol[1]=copy; | |
886 | ||
887 | gMC->CurrentVolOffID(2,copy); | |
888 | //namep=gMC->CurrentVolOffName(2); | |
889 | //printf("Current vol 22 is %s \n",namep); | |
890 | vol[2]=copy; | |
891 | ||
892 | // if(strncmp(namep,"EHC1",4))vol[2]=1; | |
893 | ||
894 | gMC->CurrentVolOffID(3,copy); | |
895 | //namep=gMC->CurrentVolOffName(3); | |
896 | //printf("Current vol 33 is %s \n",namep); | |
897 | vol[3]=copy; | |
898 | ||
899 | gMC->CurrentVolOffID(4,copy); | |
900 | //namep=gMC->CurrentVolOffName(4); | |
901 | //printf("Current vol 44 is %s \n",namep); | |
902 | vol[4]=copy; | |
903 | ||
904 | gMC->CurrentVolOffID(5,copy); | |
905 | //namep=gMC->CurrentVolOffName(5); | |
906 | //printf("Current vol 55 is %s \n",namep); | |
907 | vol[5]=copy; | |
908 | ||
909 | gMC->CurrentVolOffID(6,copy); | |
910 | //namep=gMC->CurrentVolOffName(6); | |
911 | //printf("Current vol 66 is %s \n",namep); | |
912 | vol[6]=copy; | |
913 | ||
914 | gMC->CurrentVolOffID(7,copy); | |
915 | //namep=gMC->CurrentVolOffName(7); | |
916 | //printf("Current vol 77 is %s \n",namep); | |
917 | vol[7]=copy; | |
918 | ||
919 | ||
920 | //printf("volume number %4d %4d %4d %4d %4d %4d %4d %4d %10.3f \n",vol[0],vol[1],vol[2],vol[3],vol[4],vol[5],vol[6],vol[7],destep*1000000); | |
921 | ||
922 | gMC->Gdtom(center,hits,1); | |
923 | hits[3] = destep*1e9; //Number in eV | |
924 | AddHit(gAlice->GetMCApp()->GetCurrentTrackNumber(), vol, hits); | |
925 | ||
926 | } | |
927 | } | |
928 | ||
929 | ||
930 | //------------------------------------------------------------------------ | |
931 | // Get parameters | |
932 | ||
933 | void AliPMDv1::GetParameters() | |
934 | { | |
935 | // This gives all the parameters of the detector | |
936 | // such as Length of Supermodules, type A, type B, | |
937 | // thickness of the Supermodule | |
938 | // | |
939 | ||
940 | fSMLengthax = (3.0*(fgkNcolUM1*fgkCellRadius+fgkCellRadius/2.) | |
941 | + (2.0*fgkGap)) + fgkBoundary; | |
942 | fSMLengthbx = 2.0*(fgkNcolUM2*fgkCellRadius+fgkCellRadius/2.) | |
943 | + fgkGap + fgkBoundary; | |
944 | ||
945 | fSMLengthay = 2.0*(((fgkCellRadius/fgkSqroot3by2)*fgkNrowUM1) | |
946 | - (fgkCellRadius*fgkSqroot3*(fgkNrowUM1-1)/6.)) | |
947 | + fgkGap + fgkBoundary; | |
948 | fSMLengthby = 3.0*(((fgkCellRadius/fgkSqroot3by2)*fgkNrowUM2) | |
949 | - (fgkCellRadius*fgkSqroot3*(fgkNrowUM2-1)/6.)) | |
950 | + (2.0*fgkGap) + fgkBoundary; | |
951 | ||
952 | fSMthick = fgkThBase + fgkThAir + fgkThPCB | |
953 | + fgkCellDepth + fgkThPCB + fgkThAir + fgkThPCB; | |
954 | ||
955 | } |