Steel rear and Al ring.
[u/mrichter/AliRoot.git] / STRUCT / AliABSOv0.cxx
CommitLineData
43d014f0 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/*
17$Log$
8f657ed5 18Revision 1.11 2001/11/29 14:16:51 morsch
19- truncated inner W-cone
20- new support structure
21
513b07d0 22Revision 1.10 2001/10/25 08:50:57 morsch
23New beamshield geometry with increased tolerances and insulation thickness.
24
77976fd8 25Revision 1.9 2001/05/16 14:57:22 alibrary
26New files for folders and Stack
27
9e1a0ddb 28Revision 1.8 2001/01/12 13:16:09 morsch
29Store absorber composition information in fMLayers and fZLayers
30Rear 25 cm Fe + 35 cm Cu
31
381ec9af 32Revision 1.7 2000/10/02 21:28:15 fca
33Removal of useless dependecies via forward declarations
34
94de3818 35Revision 1.6 2000/06/15 09:40:31 morsch
36Obsolete typedef keyword removed
37
56f14ac2 38Revision 1.5 2000/06/12 19:39:01 morsch
39New structure of beam pipe and heating jacket.
40
b2ef5f06 41Revision 1.4 2000/04/03 08:13:40 fca
42Introduce extra scope for non ANSI compliant C++ compilers
43
74c0d076 44Revision 1.3 2000/01/18 17:49:56 morsch
45Serious overlap of ABSM with shield corrected
46Small error in ARPB parameters corrected
47
85d164ab 48Revision 1.2 2000/01/13 11:23:59 morsch
49Last layer of Pb outer angle corrected
50
54fba644 51Revision 1.1 2000/01/12 15:39:30 morsch
b2ef5f06 52Standard version of ABSO
54fba644 53
43d014f0 54*/
55
56///////////////////////////////////////////////////////////////////////////////
57// //
58// Muon ABSOrber //
59// This class contains the description of the muon absorber geometry //
60// //
61//Begin_Html
62/*
63<img src="picts/AliABSOClass.gif">
64</pre>
65<br clear=left>
66<font size=+2 color=red>
67<p>The responsible person for this module is
68<a href="mailto:andreas.morsch@cern.ch">Andreas Morsch</a>.
69</font>
70<pre>
71*/
72//End_Html
73// //
74// //
75///////////////////////////////////////////////////////////////////////////////
76
77#include "AliABSOv0.h"
78#include "AliRun.h"
94de3818 79#include "AliMC.h"
43d014f0 80#include "AliConst.h"
b2ef5f06 81
43d014f0 82ClassImp(AliABSOv0)
83
84//_____________________________________________________________________________
85AliABSOv0::AliABSOv0()
86{
87 //
88 // Default constructor
89 //
90}
91
92//_____________________________________________________________________________
93AliABSOv0::AliABSOv0(const char *name, const char *title)
94 : AliABSO(name,title)
95{
96 //
97 // Standard constructor
98 //
99 SetMarkerColor(7);
100 SetMarkerStyle(2);
101 SetMarkerSize(0.4);
102}
103
104//_____________________________________________________________________________
105void AliABSOv0::CreateGeometry()
106{
b2ef5f06 107 //
108 // Creation of the geometry of the muon absorber
109 //
110 //Begin_Html
111 /*
112 <img src="picts/AliABSOv0Tree.gif">
113 */
114 //End_Html
115 //Begin_Html
116 /*
117 <img src="picts/AliABSOv0.gif">
118 */
119 //End_Html
120
121 //
122 //
56f14ac2 123
124 enum {kC=1605, kAl=1608, kFe=1609, kCu=1610, kW=1611, kPb=1612,
77976fd8 125 kNiCuW=1620, kVacuum=1615, kAir=1614, kConcrete=1616,
126 kPolyCH2=1617, kSteel=1609, kInsulation=1613, kPolyCc=1619};
b2ef5f06 127
128 Int_t *idtmed = fIdtmed->GetArray()-1599;
43d014f0 129
b2ef5f06 130 Float_t par[24], cpar[5], cpar0[5], pcpar[12], tpar[3], tpar0[3];
131 Float_t dz;
513b07d0 132 Int_t idrotm[1699];
b2ef5f06 133#include "ABSOSHILConst.h"
134#include "ABSOConst.h"
381ec9af 135//
136// Structure of Tracking Region
137//
138 Float_t dzFe = 25.;
139
140// 3 < theta < 9
141 fNLayers[0] = 5;
142 fMLayers[0][0] = kAir; fZLayers[0][0] = zAbsStart;
143 fMLayers[0][1] = kC; fZLayers[0][1] = zAbsCc;
144 fMLayers[0][2] = kConcrete; fZLayers[0][2] = zRear-dRear-dzFe;
77976fd8 145 fMLayers[0][3] = kSteel; fZLayers[0][3] = zRear-dRear;
8f657ed5 146 fMLayers[0][4] = kSteel; fZLayers[0][4] = zRear;
381ec9af 147// 2 < theta < 3
148 fNLayers[1] = 5;
149 fMLayers[1][0] = fMLayers[0][0]; fZLayers[1][0] = fZLayers[0][0];
150 fMLayers[1][1] = fMLayers[0][1]; fZLayers[1][1] = fZLayers[0][1];
151 fMLayers[1][2] = fMLayers[0][2]; fZLayers[1][2] = fZLayers[0][2];
152 fMLayers[1][3] = fMLayers[0][3]; fZLayers[1][3] = fZLayers[0][3];
153 fMLayers[1][4] = kNiCuW; fZLayers[1][4] = fZLayers[0][4];
154//
155
b2ef5f06 156 Float_t dTube=0.1; // tube thickness
157 Float_t dInsu=0.5; // insulation thickness
158 Float_t dEnve=0.1; // protective envelope thickness
159 Float_t dFree=0.5; // clearance thickness
160
161
162// Mother volume and outer shielding: Pb
43d014f0 163 par[0] = 0.;
164 par[1] = 360.;
165 par[2] = 7.;
b2ef5f06 166
167 par[3] = -(zRear-zAbsStart)/2.;
168 par[4] = rAbs;
169 par[5] = zAbsStart * TMath::Tan(theta1);
43d014f0 170
b2ef5f06 171 par[6] = par[3]+(zNose-zAbsStart);
172 par[7] = rAbs;
173 par[8] = zNose * TMath::Tan(theta1);
43d014f0 174
b2ef5f06 175 par[9] = par[3]+(zConeTPC-zAbsStart);
176 par[10] = rAbs;
43d014f0 177 par[11] = par[8] + (par[9] - par[6]) * TMath::Tan(theta2);
178
b2ef5f06 179 par[12] = par[3]+(zOpen-zAbsStart);
180 par[13] = rAbs;
181 par[14] = par[11] + (par[12] - par[9]) * TMath::Tan(accMax);
43d014f0 182
b2ef5f06 183 par[15] = par[3]+(zRear-dRear-zAbsStart);
184 par[16] = rAbs + (par[15] - par[12]) * TMath::Tan(thetaOpen1) ;
185 par[17] = par[14] + (par[15] - par[12]) * TMath::Tan(accMax);
43d014f0 186
b2ef5f06 187 par[18] = par[3]+(zRear-dRear-zAbsStart);
188 par[19] = (zRear-dRear) * TMath::Tan(accMin);
189 par[20] = par[14] + (par[18] - par[12]) * TMath::Tan(accMax);
43d014f0 190
191 par[21] = -par[3];
b2ef5f06 192 par[22] = zRear* TMath::Tan(accMin);
193 par[23] = par[20] + (par[21] - par[18]) * TMath::Tan(accMax);
194 gMC->Gsvolu("ABSS", "PCON", idtmed[kPb], par, 24);
74c0d076 195 { // Begin local scope for i
b2ef5f06 196 for (Int_t i=4; i<18; i+=3) par[i] = 0;
74c0d076 197 } // End local scope for i
b2ef5f06 198 gMC->Gsvolu("ABSM", "PCON", idtmed[kVacuum+40], par, 24);
43d014f0 199 gMC->Gspos("ABSS", 1, "ABSM", 0., 0., 0., 0, "ONLY");
200
201//
202// Steel envelope
203//
b2ef5f06 204 par[4] = par[5] -dSteel;
205 par[7] = par[8] -dSteel;
206 par[10]= par[11]-dSteel;
207 par[13]= par[14]-dSteel;
208 par[16]= par[17]-dSteel;
209 par[19]= par[20]-dSteel;
210 par[22]= par[23]-dSteel;
211 gMC->Gsvolu("ABST", "PCON", idtmed[kSteel], par, 24);
43d014f0 212 gMC->Gspos("ABST", 1, "ABSS", 0., 0., 0., 0, "ONLY");
213//
214// Polyethylene shield
215//
b2ef5f06 216 cpar[0] = (zRear - zConeTPC) / 2.;
217 cpar[1] = zConeTPC * TMath::Tan(accMax);
218 cpar[2] = cpar[1] + dPoly;
219 cpar[3] = zRear * TMath::Tan(accMax);
220 cpar[4] = cpar[3] + dPoly;
221 gMC->Gsvolu("APOL", "CONE", idtmed[kPolyCH2+40], cpar, 5);
222 dz = (zRear-zAbsStart)/2.-cpar[0];
43d014f0 223 gMC->Gspos("APOL", 1, "ABSS", 0., 0., dz, 0, "ONLY");
224
225//
226// Tungsten nose to protect TPC
227//
b2ef5f06 228 cpar[0] = (zNose - zAbsStart) / 2.;
229 cpar[1] = zAbsStart * TMath::Tan(accMax);
230 cpar[2] = zAbsStart * TMath::Tan(theta1)-dSteel;
231 cpar[3] = zNose * TMath::Tan(accMax);
232 cpar[4] = zNose * TMath::Tan(theta1)-dSteel;
233 gMC->Gsvolu("ANOS", "CONE", idtmed[kW], cpar, 5);
8f657ed5 234 //
b2ef5f06 235 dz = -(zRear-zAbsStart)/2.+cpar[0];
43d014f0 236 gMC->Gspos("ANOS", 1, "ABSS", 0., 0., dz, 0, "ONLY");
8f657ed5 237 //
238 // Tungsten inner shield
239 //
513b07d0 240 Float_t zW = zTwoDeg+.1;
b2ef5f06 241 Float_t dZ = zW+(zRear-dRear-zW)/2.;
43d014f0 242 //
b2ef5f06 243 pcpar[0] = 0.;
244 pcpar[1] = 360.;
245 pcpar[2] = 3.;
246 pcpar[3] = zW-dZ;
247 pcpar[4] = rAbs;
248 pcpar[5] = zW * TMath::Tan(accMin);
249 pcpar[6] = zOpen-dZ;
250 pcpar[7] = rAbs;
251 pcpar[8] = zOpen * TMath::Tan(accMin);
252 pcpar[9] = zRear-dRear-dZ;
253 pcpar[10] = rAbs+(zRear-dRear-zOpen) * TMath::Tan(thetaOpen1);
254 pcpar[11] = (zRear-dRear) * TMath::Tan(accMin);
255
256 gMC->Gsvolu("AWIN", "PCON", idtmed[kNiCuW+40], pcpar, 12);
b2ef5f06 257 dz=(zW+zRear-dRear)/2-(zAbsStart+zRear)/2.;
43d014f0 258 gMC->Gspos("AWIN", 1, "ABSS", 0., 0., dz, 0, "ONLY");
8f657ed5 259//
260// First part replaced by Carbon
261//
513b07d0 262 cpar[0] = (200.-zW)/2.;
263 cpar[1] = rAbs;
264 cpar[2] = pcpar[5];
265 cpar[3] = rAbs;
266 cpar[4] = 200. * TMath::Tan(accMin);
267 gMC->Gsvolu("ACNO", "CONE", idtmed[kC], cpar, 5);
268 dz = zW-dZ+cpar[0];
513b07d0 269 gMC->Gspos("ACNO", 1, "AWIN", 0., 0., dz, 0, "ONLY");
8f657ed5 270
271 Float_t zWW = 383.5;
272/*
273 cpar[0] = (zRear-dRear-zWW)/2.;
274 cpar[1] = rAbs + (zWW-zOpen) * TMath::Tan(thetaOpen1);
275 cpar[2] = zWW * TMath::Tan(accMin);
276 cpar[3] = pcpar[10];
277 cpar[4] = pcpar[11];
278 gMC->Gsvolu("AWNO", "CONE", idtmed[kCu+40], cpar, 5);
279 dz = zWW-dZ+cpar[0];
280
281 gMC->Gspos("AWNO", 1, "AWIN", 0., 0., dz, 0, "ONLY");
282*/
283 //
43d014f0 284 // Inner tracking region
285 //
381ec9af 286 // mother volume: Cu
43d014f0 287 //
8f657ed5 288 //
43d014f0 289 pcpar[0] = 0.;
290 pcpar[1] = 360.;
291 pcpar[2] = 3.;
b2ef5f06 292 pcpar[3] = -(zRear-zAbsStart)/2.;
293 pcpar[4] = rAbs;
294 pcpar[5] = zAbsStart * TMath::Tan(accMax);
295 pcpar[6] = pcpar[3]+(zTwoDeg-zAbsStart);
296 pcpar[7] = rAbs;
297 pcpar[8] = zTwoDeg * TMath::Tan(accMax);
85d164ab 298 pcpar[9] = -pcpar[3];
b2ef5f06 299 pcpar[10] = zRear * TMath::Tan(accMin);
300 pcpar[11] = zRear * TMath::Tan(accMax);
381ec9af 301 gMC->Gsvolu("AITR", "PCON", idtmed[fMLayers[0][4]], pcpar, 12);
43d014f0 302 //
303 // special Pb medium for last 5 cm of Pb
b2ef5f06 304 Float_t zr=zRear-2.-0.001;
305 cpar[0] = 1.0;
306 cpar[1] = zr * TMath::Tan(thetaR);
307 cpar[2] = zr * TMath::Tan(accMax);
308 cpar[3] = cpar[1] + TMath::Tan(thetaR) * 2;
309 cpar[4] = cpar[2] + TMath::Tan(accMax) * 2;
381ec9af 310 gMC->Gsvolu("ARPB", "CONE", idtmed[fMLayers[0][4]], cpar, 5);
b2ef5f06 311 dz=(zRear-zAbsStart)/2.-cpar[0]-0.001;
43d014f0 312 gMC->Gspos("ARPB", 1, "AITR", 0., 0., dz, 0, "ONLY");
43d014f0 313 //
314 // concrete cone: concrete
315 //
b2ef5f06 316 pcpar[9] = pcpar[3]+(zRear-dRear-zAbsStart);
317 pcpar[10] = (zRear-dRear) * TMath::Tan(accMin);
318 pcpar[11] = (zRear-dRear) * TMath::Tan(accMax);
381ec9af 319 gMC->Gsvolu("ACON", "PCON", idtmed[fMLayers[0][2]+40], pcpar, 12);
43d014f0 320 gMC->Gspos("ACON", 1, "AITR", 0., 0., 0., 0, "ONLY");
381ec9af 321//
322// Fe Cone
323//
324 zr = zRear-dRear-dzFe;
325 cpar[0] = dzFe/2.;
326 cpar[1] = zr * TMath::Tan(accMin);
327 cpar[2] = zr * TMath::Tan(accMax);
77976fd8 328 cpar[3] = cpar[1] + TMath::Tan(accMin) * dzFe;
381ec9af 329 cpar[4] = cpar[2] + TMath::Tan(accMax) * dzFe;
330 gMC->Gsvolu("ACFE", "CONE",idtmed[fMLayers[0][3]], cpar, 5);
331
332 dz = (zRear-zAbsStart)/2.-dRear-dzFe/2.;
333
334 gMC->Gspos("ACFE", 1, "ACON", 0., 0., dz, 0, "ONLY");
335
336
337 //
43d014f0 338 //
339 // carbon cone: carbon
340 //
b2ef5f06 341 pcpar[9] = pcpar[3]+(zAbsCc-zAbsStart);
342 pcpar[10] = zAbsCc * TMath::Tan(accMin);
343 pcpar[11] = zAbsCc * TMath::Tan(accMax);
381ec9af 344 gMC->Gsvolu("ACAR", "PCON", idtmed[fMLayers[0][1]+40], pcpar, 12);
43d014f0 345 gMC->Gspos("ACAR", 1, "ACON", 0., 0., 0., 0, "ONLY");
b2ef5f06 346 //
347 // carbon cone outer region
348 //
349 cpar[0] = 10.;
350 cpar[1] = rAbs;
351 cpar[2] = zAbsStart* TMath::Tan(accMax);
352 cpar[3] = rAbs;
353 cpar[4] = cpar[2]+2. * cpar[0] * TMath::Tan(accMax);
354
381ec9af 355 gMC->Gsvolu("ACAO", "CONE", idtmed[fMLayers[0][1]], cpar, 5);
b2ef5f06 356 dz=-(zRear-zAbsStart)/2.+cpar[0];
357 gMC->Gspos("ACAO", 1, "ACAR", 0., 0., dz, 0, "ONLY");
43d014f0 358 //
359 // inner W shield
b2ef5f06 360 Float_t epsi=0.;
361 Float_t repsi=1.;
362
363 zr=zRear-(dRear-epsi);
364 cpar[0] = (dRear-epsi)/2.;
365 cpar[1] = zr * TMath::Tan(accMin);
366 cpar[2] = zr * TMath::Tan(thetaR*repsi);
367 cpar[3] = cpar[1] + TMath::Tan(accMin) * (dRear-epsi);
368 cpar[4] = cpar[2] + TMath::Tan(thetaR*repsi) * (dRear-epsi);
381ec9af 369 gMC->Gsvolu("ARW0", "CONE", idtmed[fMLayers[1][4]+40], cpar, 5);
b2ef5f06 370 dz=(zRear-zAbsStart)/2.-cpar[0];
43d014f0 371 gMC->Gspos("ARW0", 1, "AITR", 0., 0., dz, 0, "ONLY");
372 //
373 // special W medium for last 5 cm of W
b2ef5f06 374 zr=zRear-5;
43d014f0 375 cpar[0] = 2.5;
b2ef5f06 376 cpar[1] = zr * TMath::Tan(accMin);
377 cpar[2] = zr * TMath::Tan(thetaR*repsi);
378 cpar[3] = cpar[1] + TMath::Tan(accMin) * 5.;
379 cpar[4] = cpar[2] + TMath::Tan(thetaR*repsi) * 5.;
381ec9af 380 gMC->Gsvolu("ARW1", "CONE", idtmed[fMLayers[1][4]+20], cpar, 5);
b2ef5f06 381 dz=(dRear-epsi)/2.-cpar[0];
43d014f0 382 gMC->Gspos("ARW1", 1, "ARW0", 0., 0., dz, 0, "ONLY");
383 //
381ec9af 384 // Cu
b2ef5f06 385 Float_t drMin=TMath::Tan(thetaR) * 5;
386 Float_t drMax=TMath::Tan(accMax) * 5;
381ec9af 387 gMC->Gsvolu("ARPE", "CONE", idtmed[fMLayers[0][4]], cpar, 0);
43d014f0 388 cpar[0]=2.5;
74c0d076 389 { // Begin local scope for i
b2ef5f06 390 for (Int_t i=0; i<3; i++) {
391 zr=zRear-dRear+5+i*10.;
392 cpar[1] = zr * TMath::Tan(thetaR);
393 cpar[2] = zr * TMath::Tan(accMax);
394 cpar[3] = cpar[1] + drMin;
395 cpar[4] = cpar[2] + drMax;
396 dz=(zRear-zAbsStart)/2.-cpar[0]-5.-(2-i)*10;
397 gMC->Gsposp("ARPE", i+1, "AITR", 0., 0., dz, 0, "ONLY",cpar,5);
398 }
74c0d076 399 } // End local scope for i
43d014f0 400 gMC->Gspos("AITR", 1, "ABSS", 0., 0., 0., 0, "ONLY");
b2ef5f06 401 dz = (zRear-zAbsStart)/2.+zAbsStart;
43d014f0 402 gMC->Gspos("ABSM", 1, "ALIC", 0., 0., dz, 0, "ONLY");
403//
404//
405// vacuum system
406//
407// pipe and heating jackets
408//
409//
410// cylindrical piece
b2ef5f06 411 tpar0[2]=(zOpen-zAbsStart)/2;
412 tpar0[0]=rVacu;
77976fd8 413 tpar0[1]=rVacu+dTube+dInsu+dEnve;
b2ef5f06 414 gMC->Gsvolu("AV11", "TUBE", idtmed[kSteel+40], tpar0, 3);
43d014f0 415//
416// insulation
b2ef5f06 417
43d014f0 418 tpar[2]=tpar0[2];
b2ef5f06 419 tpar[0]=rVacu+dTube;
420 tpar[1]=tpar[0]+dInsu;
421 gMC->Gsvolu("AI11", "TUBE", idtmed[kInsulation+40], tpar, 3);
43d014f0 422 gMC->Gspos("AI11", 1, "AV11", 0., 0., 0., 0, "ONLY");
b2ef5f06 423//
424 dz=-(zRear-zAbsStart)/2.+tpar0[2];
43d014f0 425 gMC->Gspos("AV11", 1, "ABSM", 0., 0., dz, 0, "ONLY");
43d014f0 426//
427// conical piece
b2ef5f06 428
429 cpar0[0]=(zRear-dRear-zOpen)/2;
77976fd8 430 cpar0[1]= rVacu-0.05;
431 cpar0[2]= rVacu+dTube+dInsu+dEnve;
b2ef5f06 432 Float_t dR=2.*cpar0[0]*TMath::Tan(thetaOpen1);
433 cpar0[3]=cpar0[1]+dR;
434 cpar0[4]=cpar0[2]+dR;
435 gMC->Gsvolu("AV21", "CONE", idtmed[kSteel+40], cpar0, 5);
436 dTube+=0.05;
437
43d014f0 438//
439// insulation
440 cpar[0]=cpar0[0];
b2ef5f06 441 cpar[1]=cpar0[1]+dTube;
442 cpar[2]=cpar0[1]+dTube+dInsu;
443 cpar[3]=cpar0[3]+dTube;
444 cpar[4]=cpar0[3]+dTube+dInsu;
445 gMC->Gsvolu("AI21", "CONE", idtmed[kInsulation+40], cpar, 5);
43d014f0 446 gMC->Gspos("AI21", 1, "AV21", 0., 0., 0., 0, "ONLY");
43d014f0 447
b2ef5f06 448 dz=(zRear-zAbsStart)/2.-cpar0[0]-dRear;
43d014f0 449 gMC->Gspos("AV21", 1, "ABSM", 0., 0., dz, 0, "ONLY");
381ec9af 450//
451// Support cone
452
513b07d0 453 par[0] = 22.5;
454 par[1] = 360.0;
455 par[2] = 8.0;
456 par[3] = 4.0;
381ec9af 457
513b07d0 458 par[4] = zRear;
459 par[5] = 100.;
8f657ed5 460 par[6] = 180.;
381ec9af 461
8f657ed5 462 par[7] = zRear+20.;
513b07d0 463 par[8] = 100.;
8f657ed5 464 par[9] = 180.;
381ec9af 465
8f657ed5 466 par[10] = zRear+20.;
467 par[11] = 178.;
468 par[12] = 180.;
381ec9af 469
513b07d0 470 par[13] = 600.;
8f657ed5 471 par[14] = 178.;
472 par[15] = 180.;
381ec9af 473
474
8f657ed5 475 gMC->Gsvolu("ASSS", "PGON", idtmed[kAl], par, 16);
381ec9af 476 gMC->Gspos("ASSS", 1, "ALIC", 0., 0., 0., 0, "ONLY");
477
513b07d0 478 Float_t trap[11];
479 trap[ 0] = (530.-170.)/2.;
480 trap[ 2] = 0.;
481 trap[ 3] = 2.;
482 trap[ 4] = (600.-(zRear+2.))/2.;;
483 trap[ 5] = trap[4];
484 trap[ 6] = 0.;
485 trap[ 7] = 2.;
486 trap[ 8] = 5.;
487 trap[ 9] = 5.;
488 trap[10] = 0.;
489 trap[ 1] = -TMath::ATan((trap[4]-trap[8])/2./trap[0])*180./TMath::Pi();
490 AliMatrix(idrotm[1600], 180., 0., 90., 0., 90., 90.);
491 AliMatrix(idrotm[1601], 180., 0., 90., 0., 90., 270.);
492 gMC->Gsvolu("ASST", "TRAP", idtmed[kSteel], trap, 11);
493 dz = (600.+zRear+2.)/2.+(trap[4]-trap[8])/2.;
494 Float_t dy = 170.+trap[0];
495
8f657ed5 496// gMC->Gspos("ASST", 1, "ALIC", 0., dy, dz, idrotm[1600], "ONLY");
497// gMC->Gspos("ASST", 2, "ALIC", 0., -dy, dz, idrotm[1601], "ONLY");
43d014f0 498}
499
500//_____________________________________________________________________________
501
502void AliABSOv0::Init()
503{
504 //
505 // Initialisation of the muon absorber after it has been built
506 Int_t i;
507 //
9e1a0ddb 508 if(fDebug) {
509 printf("\n%s: ",ClassName());
510 for(i=0;i<35;i++) printf("*");
511 printf(" ABSOv0_INIT ");
512 for(i=0;i<35;i++) printf("*");
513 printf("\n%s: ",ClassName());
514 //
515 for(i=0;i<80;i++) printf("*");
516 printf("\n");
517 }
43d014f0 518}
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