volume overlap fixed
[u/mrichter/AliRoot.git] / FMD / AliFMDv2.cxx
1 /**************************************************************************
2  * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
3  *                                                                        *
4  * Author: The ALICE Off-line Project.                                    *
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13  * provided "as is" without express or implied warranty.                  *
14  **************************************************************************/
15  /////////////////////////////////////////////////////////////////////
16 //                                                                 //
17 // Forward Multiplicity detector based on Silicon version 0        //
18 //
19 //Begin Html       
20 /*
21 <img src="gif/AliFMDv0Class.gif">
22 */
23 //End Html
24 //                                                                  //
25 //                                                                  //
26 //////////////////////////////////////////////////////////////////////
27 #include <TMath.h>
28 #include <TGeometry.h>
29 #include <TTUBE.h>
30 #include <TFile.h>
31 #include <TTree.h>
32 #include <TNode.h>
33 #include <TClonesArray.h>
34 #include <TLorentzVector.h>
35 #include <TDirectory.h>
36 #include "AliFMDv2.h"
37 #include "AliFMDv0.h"
38 #include "AliRun.h"
39 #include <Riostream.h>
40 #include "AliMagF.h"
41 #include "AliFMDhit.h"
42 #include "AliFMDdigit.h"
43 #include <stdlib.h>
44
45 ClassImp(AliFMDv2)
46
47 //--------------------------------------------------------------------
48 AliFMDv2::AliFMDv2(const char *name, const char *title):
49  AliFMD(name,title)
50 {
51   //
52   // Standart constructor for Forward Multiplicity Detector version 0
53   //
54   fIdSens1=0;
55   fIdSens2=0;
56   fIdSens3=0;
57   fIdSens4=0;
58   fIdSens5=0;
59 //  setBufferSize(128000);
60 }
61 //-------------------------------------------------------------------------
62 void AliFMDv2::CreateGeometry()
63 {
64  //
65   // Create the geometry of Forward Multiplicity Detector version 0
66   //
67   //Detector consists of 6 volumes: 
68   // 1st covered pseudorapidity interval from 3.3 to 2.0
69   // and placed on 65cm in Z-direction;
70   // 2nd - from 2.0 to 1.6 and Z=85 cm;
71   // 3d  - the same pseudorapidity interval as the 1st 
72   // but on the other side from the interaction point z=-65cm;
73   // 4th - simmetricaly with the 2nd : 
74   // pseudorapidity from 2.0 to 1.6, Z=-85cm   
75   // 5th - from 3.6 to 4.7, Z=-270cm
76   // 6th - from 4.5 to 5.5 , Z=-630cm.
77   // Each part has 400mkm Si (sensetive area, detector itself),
78   // 0.75cm of plastic simulated electronics material,
79   // Al support ring 2cm thickness and 1cm width placed on 
80   // the outer radius of each Si disk;
81   //    
82   // begin Html
83   /*
84    <img src="gif/AliFMDv0.gif">
85    */
86   //
87
88   Int_t *idtmed = fIdtmed->GetArray();
89    
90   Int_t ifmd;
91   Int_t idrotm[999];
92   Float_t zFMD,par[3],ppcon[5];
93     //ppcon1[15],ppcon2[15],ppcon3[15],ppcon4[15],ppcon5[15];
94   Float_t z[5]={62.8, 75.2, -83.4, -75.2, -340.};
95   Float_t NylonTube[3]={0.2,0.6,0.45};
96   Float_t zPCB=0.12; Float_t zHoneyComb=0.5; 
97   Float_t zSi=0.03;
98  
99 //-------------------------------------------------------------------
100  //  FMD 
101  //------------------------------------------------------------------
102   //  cout<<" !!!!!!!!!!!New FMD geometry !!!!!!!!!"<<endl;
103   
104
105   char nameFMD[5], nameSi[5], nameSector[5], nameRing[5];
106   Char_t nameHoney[5], nameHoneyIn[5], nameHoneyOut[5];
107   Char_t namePCB[5], nameCopper[5], nameChips[5], nameG10[5];
108   Char_t nameLPCB[5], nameLCopper[5], nameLChips[5], nameGL10[5];;
109   Float_t rin[5]={4.2,15.4,4.2,15.4,4.2};
110   Float_t rout[5]={17.4,28.4,17.4,28.4,17.4};
111   Float_t RinHoneyComb[5] ={ 5.15,16.4,  5.15,16.4,  5.15};
112   Float_t RoutHoneyComb[5]={20.63,34.92,22.3, 32.02,20.63};
113   Float_t zInside;
114   Float_t zCooper=0.01; Float_t zChips=0.01;
115   Float_t yNylonTube[5]={10,20,10,20,10};
116
117
118   AliMatrix(idrotm[901], 90, 0, 90, 90, 180, 0);
119   
120   
121   // Nylon tubes
122    gMC->Gsvolu("GNYL","TUBE", idtmed[1], NylonTube, 3);  //support nylon tube
123    Float_t wideSupport=zSi+3*zPCB+2*NylonTube[2]+zHoneyComb;
124    //   cout<<" wideSupport "<<wideSupport<<endl;
125
126   for (ifmd=0; ifmd<5; ifmd++)
127     {
128       sprintf(nameFMD,"FMD%d",ifmd+1);
129       ppcon[0]=0;
130       ppcon[1]=360;
131       ppcon[2]=4;
132       
133       ppcon[3]=-wideSupport;
134       ppcon[4]=rin[ifmd]+0.1;
135       ppcon[5]=rout[ifmd]+0.1;
136       
137       ppcon[6]=ppcon[3]+zSi+2*zPCB+2*NylonTube[2];
138       ppcon[7]=rin[ifmd]+0.1;
139       ppcon[8]=rout[ifmd]+0.1;
140       
141       ppcon[9]=ppcon[6];
142       ppcon[10]=RinHoneyComb[ifmd]+0.1;
143       ppcon[11]=RoutHoneyComb[ifmd]+0.1;
144
145       ppcon[12]=ppcon[9]+2*zHoneyComb+zPCB;
146       ppcon[13]=RinHoneyComb[ifmd]+0.1;
147       ppcon[14]=RoutHoneyComb[ifmd]+0.1;
148       zFMD=z[ifmd]+wideSupport/2.;
149       //      cout<<" Si "<<ifmd+1<<" "<<zFMD<<" "<<ppcon[12]<<endl;
150       gMC->Gsvolu(nameFMD,"PCON",idtmed[0],ppcon,15);
151       if (z[ifmd] >0){  
152         gMC->Gspos(nameFMD,1,"ALIC",0,0,z[ifmd],0, "ONLY");}
153       else { 
154         gMC->Gspos(nameFMD,1,"ALIC",0,0,z[ifmd],idrotm[901], "ONLY");}
155      //silicon
156       sprintf(nameSi,"GSI%d",ifmd+1);
157       sprintf(nameSector,"GSC%d",ifmd+1);
158       sprintf(nameRing,"GRN%d",ifmd+1);
159       
160       //honeycomb support
161       sprintf(nameHoney,"GSU%d",ifmd+1);
162       gMC->Gsvolu(nameHoney,"TUBE", idtmed[0], par, 0);  //honeycomb 
163       sprintf(nameHoneyIn,"GHI%d",ifmd+1);
164       gMC->Gsvolu(nameHoneyIn,"TUBE", idtmed[7], par, 0);  //honey comb inside 
165       sprintf(nameHoneyOut,"GHO%d",ifmd+1);
166       gMC->Gsvolu(nameHoneyOut,"TUBE", idtmed[6], par, 0);  //honey comb skin
167       //PCB
168       sprintf(namePCB,"GPC%d",ifmd+1);
169       gMC->Gsvolu(namePCB,"TUBE", idtmed[0], par, 0); //PCB
170       sprintf(nameCopper,"GCO%d",ifmd+1);
171       gMC->Gsvolu(nameCopper,"TUBE", idtmed[3], par, 0);  // Cooper
172       sprintf(nameChips,"GCH%d",ifmd+1);
173       gMC->Gsvolu(nameChips,"TUBE", idtmed[5], par, 0); // Si chips
174       sprintf(nameG10,"G10%d",ifmd+1);
175       gMC->Gsvolu(nameG10,"TUBE", idtmed[2], par, 0);  //G10 plate
176       //last PCB
177       sprintf(nameLPCB,"GPL%d",ifmd+1);
178       gMC->Gsvolu(nameLPCB,"TUBE", idtmed[0], par, 0); //PCB
179       sprintf(nameLCopper,"GCL%d",ifmd+1);
180       gMC->Gsvolu(nameLCopper,"TUBE", idtmed[3], par, 0);  // Cooper
181       sprintf(nameLChips,"GHL%d",ifmd+1);
182       gMC->Gsvolu(nameLChips,"TUBE", idtmed[5], par, 0); // Si chips
183       sprintf(nameGL10,"G1L%d",ifmd+1);
184       gMC->Gsvolu(nameGL10,"TUBE", idtmed[2], par, 0);  //G10 plate
185      
186      
187       par[0]=rin[ifmd]; // pipe size
188       par[1]=rout[ifmd];
189       par[2]=zSi/2;
190       gMC->Gsvolu(nameSi,"TUBE", idtmed[4], par, 3);
191       zInside=ppcon[3]+par[2];
192        gMC->Gspos(nameSi,ifmd+1,nameFMD,0,0,zInside,0, "ONLY");
193       //PCB 1
194       zInside += par[2]+zPCB/2;
195       par[2]=zPCB/2;
196       gMC->Gsposp(namePCB,1,nameFMD,0,0,zInside,0, "ONLY",par,3);
197       zInside += zPCB;
198       gMC->Gsposp(namePCB,2,nameFMD,0,0,zInside,0, "ONLY",par,3);
199       Float_t NulonTubeBegin=zInside+2*zPCB;
200       par[2]=zPCB/2-0.02;
201       Float_t zInPCB = -zPCB/2+par[2];
202       gMC->Gsposp(nameG10,1,namePCB,0,0,zInPCB,0, "ONLY",par,3);
203       zInPCB+=par[2]+zCooper/2 ;
204       par[2]=zCooper/2;
205       gMC->Gsposp(nameCopper,1,namePCB,0,0,zInPCB,0, "ONLY",par,3);
206       zInPCB += zCooper/2 + zChips/2;
207       par[2]=zChips/2;
208       gMC->Gsposp(nameChips,1,namePCB,0,0,zInPCB,0, "ONLY",par,3);
209       //HoneyComb
210       zHoneyComb=0.8;   
211       par[0] = RinHoneyComb[ifmd];
212       par[1] = RoutHoneyComb[ifmd];
213       par[2] = zHoneyComb/2;
214       zInside += 2*NylonTube[2]+par[2];
215       gMC->Gsposp(nameHoney,1,nameFMD,0,0,zInside,0, "ONLY",par,3);
216       par[2]=0.1/2;
217       Float_t zHoney=-zHoneyComb/2+par[2];
218       gMC->Gsposp(nameHoneyOut,1,nameHoney,0,0,zHoney,0,
219                   "ONLY",par,3); //shkurki
220       zHoney=zHoneyComb/2-par[2];
221       gMC->Gsposp(nameHoneyOut,2,nameHoney,0,0,zHoney,0, "ONLY",par,3);
222       par[2]=(zHoneyComb-2.*0.1)/2; //soty vnutri
223       gMC->Gsposp(nameHoneyIn,1,nameHoney,0,0,0,0, "ONLY",par,3);
224       
225       gMC->Gspos("GNYL",1,nameFMD,0,yNylonTube[ifmd],
226                  NulonTubeBegin+NylonTube[2]/2.,0, "ONLY");
227       gMC->Gspos("GNYL",2,nameFMD,0,-yNylonTube[ifmd],
228                  NulonTubeBegin+NylonTube[2]/2.,0, "ONLY");
229          
230       //last PCB
231       par[0]=RoutHoneyComb[ifmd]-9;
232       par[1]=RoutHoneyComb[ifmd];
233       par[2]=zPCB/2;
234       zInside += zHoneyComb/2+par[2];
235       gMC->Gsposp(nameLPCB,1,nameFMD,0,0,zInside,0, "ONLY",par,3);
236       
237        par[2]=zPCB/2-0.02;
238        zInPCB = -zPCB/2+par[2];
239        gMC->Gsposp(nameGL10,1,nameLPCB,0,0,zInPCB,0, "ONLY",par,3);
240        zInPCB+=par[2]+zCooper/2 ;
241        par[2]=zCooper/2;
242        gMC->Gsposp(nameLCopper,1,nameLPCB,0,0,zInPCB,0, "ONLY",par,3);
243        zInPCB += zCooper/2 + zChips/2;
244        par[2]=zChips/2;
245        gMC->Gsposp(nameLChips,1,nameLPCB,0,0,zInPCB,0, "ONLY",par,3);
246       
247            
248      //Granularity
249     fSectorsSi1=20;
250     fRingsSi1=256*3;
251     // fRingsSi1=3; // for drawing only
252     fSectorsSi2=40;
253     fRingsSi2=128*3;
254     // fRingsSi2=3; //for  drawing onl
255     if(ifmd==1||ifmd==3)
256       { 
257         gMC->Gsdvn(nameSector, nameSi , fSectorsSi2, 2);
258         gMC->Gsdvn(nameRing, nameSector, fRingsSi2, 1);
259       }
260     else
261       {
262         gMC->Gsdvn(nameSector, nameSi , fSectorsSi1, 2);
263         gMC->Gsdvn(nameRing, nameSector , fRingsSi1, 1);
264       }
265     
266     }
267 }    
268
269
270 //------------------------------------------------------------------------
271
272
273 void AliFMDv2::CreateMaterials()
274 {
275  Int_t isxfld   = gAlice->Field()->Integ();
276  Float_t sxmgmx = gAlice->Field()->Max();
277
278  // Plastic CH
279  Float_t aPlastic[2]={1.01,12.01};
280  Float_t zPlastic[2]={1,6};
281  Float_t wPlastic[2]={1,1};
282  Float_t denPlastic=1.03;
283  //     60% SiO2 , 40% G10FR4 
284  // PC board
285  Float_t apcb[3]  = { 28.0855,15.9994,17.749 };
286  Float_t zpcb[3]  = { 14.,8.,8.875 };
287  Float_t wpcb[3]  = { .28,.32,.4 };
288  Float_t denspcb  = 1.8;
289    //
290  
291  //*** Definition Of avaible FMD materials ***
292  AliMaterial(0, "FMD Air$", 14.61, 7.3, .001205, 30423.,999); 
293  AliMixture(1, "Plastic$",aPlastic,zPlastic,denPlastic,-2,wPlastic);
294  AliMixture(2, "SSD PCB$",   apcb, zpcb, denspcb, 3, wpcb);
295  AliMaterial(3, "SSD Copper$", 63.546, 29., 8.96, 1.43, 999.);
296  AliMaterial(4, "SSD Si$",      28.0855, 14., 2.33, 9.36, 999.);
297  AliMaterial(5, "SSD Si chip$", 28.0855, 14., 2.33, 9.36, 999.);
298  AliMaterial(6, "SSD C$",       12.011,   6., 2.265,18.8, 999.);
299  AliMaterial(7, "SSD Kapton$", 12.011, 6., 0.01, 31.27, 999.);//honeycomb
300   AliMaterial(8, "SSD G10FR4$", 17.749, 8.875, 1.8, 21.822, 999.);
301    
302
303 //**
304  AliMedium(0, "FMD air$", 0, 0, isxfld, sxmgmx, 1., .001, 1., .001, .001);
305  AliMedium(1, "Plastic$", 1, 0,isxfld, sxmgmx,  10., .01, 1., .003, .003);
306  AliMedium(2, "SSD PCB$", 2, 0, isxfld, sxmgmx, 1., .001, 1., .001, .001);
307  AliMedium(3, "SSD Copper$", 3, 0,isxfld, sxmgmx,  10., .01, 1., .003, .003);
308  AliMedium(4, "SSD Si$", 4, 1, isxfld, sxmgmx, 1., .001, 1., .001, .001);
309  AliMedium(5, "SSD Si chip$", 5, 0,isxfld, sxmgmx,  10., .01, 1., .003, .003);
310  AliMedium(6, "SSD C$", 6, 0,isxfld, sxmgmx,  10., .01, 1., .003, .003);
311  AliMedium(7, "SSD Kapton$", 7, 0, isxfld, sxmgmx, 1., .001, 1., .001, .001);
312  AliMedium(8, "SSD G10FR4$", 8, 0,isxfld, sxmgmx,  10., .01, 1., .003, .003);
313  
314
315
316 }
317
318 //---------------------------------------------------------------------
319 void AliFMDv2::DrawDetector()
320 {
321 //
322 // Draw a shaded view of the Forward multiplicity detector version 0
323 //
324
325
326 //Set ALIC mother transparent
327 gMC->Gsatt("ALIC","SEEN",0);
328 //
329 //Set volumes visible
330 gMC->Gsatt("FMD1","SEEN",1);
331 gMC->Gsatt("FMD2","SEEN",1);
332 gMC->Gsatt("FMD3","SEEN",1);
333 gMC->Gsatt("FMD4","SEEN",1);
334 gMC->Gsatt("FMD5","SEEN",1);
335
336 //
337 gMC->Gdopt("hide","on");
338 gMC->Gdopt("shad","on");
339 gMC->SetClipBox(".");
340 gMC->SetClipBox("*",0,1000,-1000,1000,-1000,1000);
341 gMC->DefaultRange();
342 gMC->Gdraw("alic",40,30,0,12,9.5,.2,0.2);
343 gMC->Gdhead(1111,"Forward multiplicity detector");
344 gMC->Gdopt("hide","off");
345 }
346 //-------------------------------------------------------------------
347 void AliFMDv2::Init()
348 {
349 // Initialises version 0 of the Forward Multiplicity Detector
350 //
351 AliFMD::Init();
352 fIdSens1=gMC->VolId("GRN1");
353 fIdSens2=gMC->VolId("GRN2");
354 fIdSens3=gMC->VolId("GRN3");
355 fIdSens4=gMC->VolId("GRN4");
356 fIdSens5=gMC->VolId("GRN5");
357 printf("*** FMD version 2 initialized ***\n");
358 }
359
360 //-------------------------------------------------------------------
361
362 void AliFMDv2::StepManager()
363 {
364   //
365   // Called for every step in the Forward Multiplicity Detector
366   //
367   Int_t id,copy,copy1,copy2;
368   static Float_t hits[9];
369   static Int_t vol[3];
370   static Float_t de;
371   TLorentzVector pos;
372   TLorentzVector mom;
373
374
375   TClonesArray &lhits = *fHits;
376   if(!gMC->IsTrackAlive()) return; // particle has disappeared
377
378   Float_t charge = gMC->TrackCharge();
379   if(TMath::Abs(charge)<=0.) return; //take only charged particles
380
381   //  printf(" in StepManeger \n");
382   id=gMC->CurrentVolID(copy);
383   
384 // Check the sensetive volume
385    if(id==fIdSens1||id==fIdSens2||id==fIdSens3||id==fIdSens4||id==fIdSens5)
386      {
387        if(gMC->IsTrackEntering())
388          {
389            vol[2]=copy;
390            gMC->CurrentVolOffID(1,copy1);
391            vol[1]=copy1;
392            gMC->CurrentVolOffID(2,copy2);
393            vol[0]=copy2;
394
395            gMC->TrackPosition(pos);
396            hits[0]=pos[0];
397            hits[1]=pos[1];
398            hits[2]=pos[2];
399
400            gMC->TrackMomentum(mom);
401            hits[3]=mom[0];
402            hits[4]=mom[1];
403            hits[5]=mom[2];
404
405            Int_t iPart= gMC->TrackPid();
406            Int_t partId=gMC->IdFromPDG(iPart);
407            hits[7]=partId;
408            hits[8]=1e9*gMC->TrackTime();
409            de=0.;
410          }
411        if(gMC->IsTrackInside()){
412            de=de+1000.*gMC->Edep();
413        }
414        
415        if(gMC->IsTrackExiting()
416           ||gMC->IsTrackDisappeared()||
417           gMC->IsTrackStop())
418          {
419              hits[6]=de+1000.*gMC->Edep();
420       new(lhits[fNhits++]) AliFMDhit(fIshunt,gAlice->CurrentTrack(),vol,hits);
421          } // IsTrackExiting()
422      }
423   }
424
425 //--------------------------------------------------------------------------
426
427 void AliFMDv2::Response( Float_t Edep)
428 {
429   Float_t I=1.664*0.04*2.33/22400; // = 0.69e-6;
430   Float_t chargeOnly=Edep/I;
431   //Add noise ~500electrons
432   Int_t charge=500;
433   if (Edep>0)
434      charge=Int_t(gRandom->Gaus(chargeOnly,500));       
435  }   
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