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5f20d3fb | 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 | // Implementation version v0 of PHOS Manager class | |
20 | // Layout EMC + PPSD has name GPS2 | |
21 | // The main goal of this version of AliPHOS is to calculte the | |
22 | // induced charged in the PIN diode, taking into account light | |
23 | // tracking in the PbWO4 crystal, induced signal in the | |
24 | // PIN due to MIPS particle and electronic noise. | |
25 | // This is done in the StepManager | |
26 | // | |
50abc6f8 | 27 | //*-- Author: Odd Harald Odland & Gines Martinez (SUBATECH) |
5f20d3fb | 28 | |
29 | ||
30 | // --- ROOT system --- | |
31 | #include "TRandom.h" | |
32 | ||
33 | // --- Standard library --- | |
34 | ||
35 | #include <stdio.h> | |
36 | #include <string.h> | |
37 | #include <stdlib.h> | |
38 | #include <strstream.h> | |
39 | ||
40 | // --- AliRoot header files --- | |
41 | ||
42 | #include "AliPHOSv3.h" | |
43 | #include "AliPHOSHit.h" | |
97cee223 | 44 | #include "AliPHOSCPVDigit.h" |
5f20d3fb | 45 | #include "AliRun.h" |
46 | #include "AliConst.h" | |
94de3818 | 47 | #include "AliMC.h" |
97cee223 | 48 | #include "AliPHOSGeometry.h" |
5f20d3fb | 49 | |
50 | ClassImp(AliPHOSv3) | |
51 | ||
735e58f1 | 52 | //____________________________________________________________________________ |
53 | AliPHOSv3::AliPHOSv3(void) : AliPHOSv1() | |
54 | { | |
55 | // default ctor: initialize daa members | |
56 | ||
57 | fLightYieldMean = 0. ; | |
58 | fIntrinsicPINEfficiency = 0. ; | |
59 | fLightYieldAttenuation = 0. ; | |
60 | fRecalibrationFactor = 0. ; | |
3dab1cef | 61 | fElectronsPerGeV = 0. ; |
62 | fAPDGain = 0. ; | |
735e58f1 | 63 | |
64 | } | |
65 | ||
5f20d3fb | 66 | //____________________________________________________________________________ |
e04976bd | 67 | AliPHOSv3::AliPHOSv3(const char *name, const char *title): |
68 | AliPHOSv1(name,title) | |
5f20d3fb | 69 | { |
70 | // ctor | |
71 | ||
3dab1cef | 72 | // The light yield is a poissonian distribution of the number of |
73 | // photons created in the PbWo4 crystal, calculated using following formula | |
74 | // NumberOfPhotons = EnergyLost * LightYieldMean* APDEfficiency * | |
75 | // exp (-LightYieldAttenuation * DistanceToPINdiodeFromTheHit); | |
76 | // LightYieldMean is parameter calculated to be over 47000 photons per GeV | |
77 | // APDEfficiency is 0.02655 | |
5f20d3fb | 78 | // k_0 is 0.0045 from Valery Antonenko |
3dab1cef | 79 | // The number of electrons created in the APD is |
80 | // NumberOfElectrons = APDGain * LightYield | |
81 | // The APD Gain is 300 | |
82 | ||
83 | fLightYieldMean = 47000; | |
84 | fIntrinsicPINEfficiency = 0.02655 ; //APD= 0.1875/0.1271 * 0.018 (PIN) | |
85 | fLightYieldAttenuation = 0.0045 ; | |
86 | fRecalibrationFactor = 13.418/ fLightYieldMean ; | |
87 | fElectronsPerGeV = 2.77e+8 ; | |
88 | fAPDGain= 300. ; | |
5f20d3fb | 89 | } |
90 | ||
97cee223 | 91 | // //____________________________________________________________________________ |
92 | // AliPHOSv3::AliPHOSv3(AliPHOSReconstructioner * Reconstructioner, const char *name, const char *title): | |
93 | // AliPHOSv1(Reconstructioner,name,title) | |
94 | // { | |
95 | // // ctor | |
96 | ||
97 | // // Number of electrons created in the PIN due to light collected in the PbWo4 crystal is calculated using | |
98 | // // following formula | |
99 | // // NumberOfElectrons = EnergyLost * LightYield * PINEfficiency * | |
100 | // // exp (-LightYieldAttenuation * DistanceToPINdiodeFromTheHit) * | |
101 | // // RecalibrationFactor ; | |
102 | // // LightYield is obtained as a Poissonian distribution with a mean at 700000 photons per GeV fromValery Antonenko | |
50abc6f8 | 103 | // // PINEfficiency is 0.1875 |
97cee223 | 104 | // // k_0 is 0.0045 from Valery Antonenko |
105 | ||
106 | // fLightYieldMean = 700000.; | |
107 | // fIntrinsicPINEfficiency = 0.1875 ; | |
108 | // fLightYieldAttenuation = 0.0045 ; | |
109 | // fRecalibrationFactor = 6.2 / fLightYieldMean ; | |
50abc6f8 | 110 | // fRecalibrationFactor = 5.67 /fLightYieldMean ;//25.04.2001 OHO |
97cee223 | 111 | // fElectronsPerGeV = 2.77e+8 ; |
112 | // } | |
5f20d3fb | 113 | //____________________________________________________________________________ |
037cc66d | 114 | |
5f20d3fb | 115 | void AliPHOSv3::StepManager(void) |
116 | { | |
117 | // Accumulates hits as long as the track stays in a single crystal or PPSD gas Cell | |
037cc66d | 118 | |
119 | // if (gMC->IsTrackEntering()) | |
120 | // cout << "Track enters the volume " << gMC->CurrentVolName() << endl; | |
121 | // if (gMC->IsTrackExiting()) | |
122 | // cout << "Track leaves the volume " << gMC->CurrentVolName() << endl; | |
5f20d3fb | 123 | |
5c617c31 | 124 | Int_t relid[4] ; // (box, layer, row, column) indices |
125 | Int_t absid ; // absolute cell ID number | |
037cc66d | 126 | Float_t xyze[4]={0,0,0,0} ; // position wrt MRS and energy deposited |
3dab1cef | 127 | |
128 | TLorentzVector pos ; // Lorentz vector of the track current position | |
037cc66d | 129 | Int_t copy ; |
3dab1cef | 130 | Float_t fLightYield ; // Light Yield per GeV |
131 | ||
5f20d3fb | 132 | Int_t tracknumber = gAlice->CurrentTrack() ; |
037cc66d | 133 | Int_t primary = gAlice->GetPrimary( gAlice->CurrentTrack() ); |
fa7cce36 | 134 | TString name = GetGeometry()->GetName() ; |
50abc6f8 | 135 | Float_t lostenergy ; |
136 | Float_t global[3] ; | |
137 | Float_t local[3] ; | |
037cc66d | 138 | |
139 | ||
140 | if ( name == "GPS2" || name == "MIXT" ) { // ======> CPV is a GPS' PPSD | |
5f20d3fb | 141 | |
dc999bc0 | 142 | if( gMC->CurrentVolID(copy) == gMC->VolId("PPCE") ) // We are inside a gas cell |
5f20d3fb | 143 | { |
144 | gMC->TrackPosition(pos) ; | |
145 | xyze[0] = pos[0] ; | |
146 | xyze[1] = pos[1] ; | |
147 | xyze[2] = pos[2] ; | |
037cc66d | 148 | xyze[3] = gMC->Edep() ; |
5f20d3fb | 149 | |
b37750a6 | 150 | if ( xyze[3] != 0) { // there is deposited energy |
5f20d3fb | 151 | gMC->CurrentVolOffID(5, relid[0]) ; // get the PHOS Module number |
037cc66d | 152 | if ( name == "MIXT" && strcmp(gMC->CurrentVolOffName(5),"PHO1") == 0 ){ |
fa7cce36 | 153 | relid[0] += GetGeometry()->GetNModules() - GetGeometry()->GetNPPSDModules(); |
037cc66d | 154 | } |
5f20d3fb | 155 | gMC->CurrentVolOffID(3, relid[1]) ; // get the Micromegas Module number |
fa7cce36 | 156 | // 1-> GetGeometry()->GetNumberOfModulesPhi() * GetGeometry()->GetNumberOfModulesZ() upper |
157 | // > GetGeometry()->GetNumberOfModulesPhi() * GetGeometry()->GetNumberOfModulesZ() lower | |
5f20d3fb | 158 | gMC->CurrentVolOffID(1, relid[2]) ; // get the row number of the cell |
159 | gMC->CurrentVolID(relid[3]) ; // get the column number | |
160 | ||
161 | // get the absolute Id number | |
162 | ||
fa7cce36 | 163 | GetGeometry()->RelToAbsNumbering(relid, absid) ; |
037cc66d | 164 | |
165 | // add current hit to the hit list | |
b37750a6 | 166 | AddHit(fIshunt, primary, tracknumber, absid, xyze); |
5f20d3fb | 167 | |
5f20d3fb | 168 | |
169 | } // there is deposited energy | |
037cc66d | 170 | } // We are inside the gas of the CPV |
171 | } // GPS2 configuration | |
172 | ||
173 | if ( name == "IHEP" || name == "MIXT" ) { // ======> CPV is a IHEP's one | |
174 | ||
175 | // Yuri Kharlov, 28 September 2000 | |
176 | ||
97cee223 | 177 | if( gMC->CurrentVolID(copy) == gMC->VolId("PCPQ") && |
b37750a6 | 178 | gMC->IsTrackEntering() && |
037cc66d | 179 | gMC->TrackCharge() != 0) { |
b37750a6 | 180 | |
181 | gMC -> TrackPosition(pos); | |
182 | Float_t xyzm[3], xyzd[3] ; | |
183 | Int_t i; | |
184 | for (i=0; i<3; i++) xyzm[i] = pos[i]; | |
185 | gMC -> Gmtod (xyzm, xyzd, 1); // transform coordinate from master to daughter system | |
186 | ||
187 | Float_t xyd[3]={0,0,0} ; //local posiiton of the entering | |
188 | xyd[0] = xyzd[0]; | |
189 | xyd[1] =-xyzd[1]; | |
190 | xyd[2] =-xyzd[2]; | |
191 | ||
192 | ||
193 | // Current momentum of the hit's track in the local ref. system | |
194 | TLorentzVector pmom ; //momentum of the particle initiated hit | |
195 | gMC -> TrackMomentum(pmom); | |
196 | Float_t pm[3], pd[3]; | |
197 | for (i=0; i<3; i++) pm[i] = pmom[i]; | |
198 | gMC -> Gmtod (pm, pd, 2); // transform 3-momentum from master to daughter system | |
199 | pmom[0] = pd[0]; | |
200 | pmom[1] =-pd[1]; | |
201 | pmom[2] =-pd[2]; | |
037cc66d | 202 | |
203 | // Digitize the current CPV hit: | |
204 | ||
205 | // 1. find pad response and | |
206 | ||
207 | Int_t moduleNumber; | |
208 | gMC->CurrentVolOffID(3,moduleNumber); | |
209 | moduleNumber--; | |
210 | ||
211 | ||
212 | TClonesArray *cpvDigits = new TClonesArray("AliPHOSCPVDigit",0); // array of digits for current hit | |
213 | CPVDigitize(pmom,xyd,moduleNumber,cpvDigits); | |
214 | ||
215 | Float_t xmean = 0; | |
216 | Float_t zmean = 0; | |
217 | Float_t qsum = 0; | |
218 | Int_t idigit,ndigits; | |
219 | ||
220 | // 2. go through the current digit list and sum digits in pads | |
221 | ||
222 | ndigits = cpvDigits->GetEntriesFast(); | |
223 | for (idigit=0; idigit<ndigits-1; idigit++) { | |
29b077b5 | 224 | AliPHOSCPVDigit *cpvDigit1 = dynamic_cast<AliPHOSCPVDigit*>(cpvDigits->UncheckedAt(idigit)); |
037cc66d | 225 | Float_t x1 = cpvDigit1->GetXpad() ; |
226 | Float_t z1 = cpvDigit1->GetYpad() ; | |
227 | for (Int_t jdigit=idigit+1; jdigit<ndigits; jdigit++) { | |
29b077b5 | 228 | AliPHOSCPVDigit *cpvDigit2 = dynamic_cast<AliPHOSCPVDigit*>(cpvDigits->UncheckedAt(jdigit)); |
037cc66d | 229 | Float_t x2 = cpvDigit2->GetXpad() ; |
230 | Float_t z2 = cpvDigit2->GetYpad() ; | |
231 | if (x1==x2 && z1==z2) { | |
232 | Float_t qsum = cpvDigit1->GetQpad() + cpvDigit2->GetQpad() ; | |
233 | cpvDigit2->SetQpad(qsum) ; | |
234 | cpvDigits->RemoveAt(idigit) ; | |
235 | } | |
236 | } | |
237 | } | |
238 | cpvDigits->Compress() ; | |
239 | ||
240 | // 3. add digits to temporary hit list fTmpHits | |
241 | ||
242 | ndigits = cpvDigits->GetEntriesFast(); | |
243 | for (idigit=0; idigit<ndigits; idigit++) { | |
29b077b5 | 244 | AliPHOSCPVDigit *cpvDigit = dynamic_cast<AliPHOSCPVDigit*>(cpvDigits->UncheckedAt(idigit)); |
037cc66d | 245 | relid[0] = moduleNumber + 1 ; // CPV (or PHOS) module number |
246 | relid[1] =-1 ; // means CPV | |
247 | relid[2] = cpvDigit->GetXpad() ; // column number of a pad | |
248 | relid[3] = cpvDigit->GetYpad() ; // row number of a pad | |
249 | ||
250 | // get the absolute Id number | |
fa7cce36 | 251 | GetGeometry()->RelToAbsNumbering(relid, absid) ; |
037cc66d | 252 | |
253 | // add current digit to the temporary hit list | |
254 | xyze[0] = 0. ; | |
255 | xyze[1] = 0. ; | |
256 | xyze[2] = 0. ; | |
257 | xyze[3] = cpvDigit->GetQpad() ; // amplitude in a pad | |
258 | primary = -1; // No need in primary for CPV | |
b37750a6 | 259 | AddHit(fIshunt, primary, tracknumber, absid, xyze); |
037cc66d | 260 | |
261 | if (cpvDigit->GetQpad() > 0.02) { | |
262 | xmean += cpvDigit->GetQpad() * (cpvDigit->GetXpad() + 0.5); | |
263 | zmean += cpvDigit->GetQpad() * (cpvDigit->GetYpad() + 0.5); | |
264 | qsum += cpvDigit->GetQpad(); | |
265 | } | |
266 | } | |
267 | delete cpvDigits; | |
268 | } | |
269 | } // end of IHEP configuration | |
5f20d3fb | 270 | |
5f20d3fb | 271 | |
50abc6f8 | 272 | if(gMC->CurrentVolID(copy)==gMC->VolId("PXTL")){// We are inside a PBWO4 crystal |
037cc66d | 273 | gMC->TrackPosition(pos) ; |
274 | xyze[0] = pos[0] ; | |
275 | xyze[1] = pos[1] ; | |
276 | xyze[2] = pos[2] ; | |
50abc6f8 | 277 | global[0] = pos[0] ; |
278 | global[1] = pos[1] ; | |
279 | global[2] = pos[2] ; | |
280 | lostenergy = gMC->Edep(); | |
037cc66d | 281 | xyze[3] = gMC->Edep() ; |
5f20d3fb | 282 | |
037cc66d | 283 | |
50abc6f8 | 284 | if ( (xyze[3] != 0) ){//Track is inside the crystal and deposits some energy |
5f20d3fb | 285 | |
037cc66d | 286 | gMC->CurrentVolOffID(10, relid[0]) ; // get the PHOS module number ; |
5f20d3fb | 287 | |
037cc66d | 288 | if ( name == "MIXT" && strcmp(gMC->CurrentVolOffName(10),"PHO1") == 0 ) |
fa7cce36 | 289 | relid[0] += GetGeometry()->GetNModules() - GetGeometry()->GetNPPSDModules(); |
037cc66d | 290 | |
291 | relid[1] = 0 ; // means PBW04 | |
50abc6f8 | 292 | gMC->CurrentVolOffID(4, relid[2]) ; // get the row number inside the module |
293 | gMC->CurrentVolOffID(3, relid[3]) ; // get the cell number inside the module | |
037cc66d | 294 | |
5f20d3fb | 295 | // get the absolute Id number |
50abc6f8 | 296 | |
3dab1cef | 297 | GetGeometry()->RelToAbsNumbering(relid, absid) ; |
037cc66d | 298 | |
3dab1cef | 299 | gMC->Gmtod(global, local, 1) ; |
50abc6f8 | 300 | |
3dab1cef | 301 | //Calculates the light yield, the number of photns produced in the |
302 | //crystal | |
303 | fLightYield = gRandom->Poisson( | |
304 | fLightYieldMean * lostenergy * | |
305 | fIntrinsicPINEfficiency * | |
306 | exp(-fLightYieldAttenuation * | |
307 | (local[1]+GetGeometry()->GetCrystalSize(1)/2.0 )) | |
308 | ) ; | |
309 | //Calculates de energy deposited in the crystal | |
310 | xyze[3] = (fRecalibrationFactor/100.) * fAPDGain * fLightYield ; | |
311 | ||
68140e39 | 312 | |
3dab1cef | 313 | // cout<<"xyze[3]: "<<xyze[3]<< endl; |
68140e39 | 314 | //cout<<"lostenergy: "<<lostenergy<<endl; |
50abc6f8 | 315 | |
50abc6f8 | 316 | |
3dab1cef | 317 | |
50abc6f8 | 318 | |
037cc66d | 319 | // add current hit to the hit list |
3dab1cef | 320 | |
50abc6f8 | 321 | |
3dab1cef | 322 | if (xyze[3] != 0.) AddHit(fIshunt, primary,tracknumber, absid, xyze); |
323 | ||
5f20d3fb | 324 | |
037cc66d | 325 | } // there is deposited energy |
326 | } // we are inside a PHOS Xtal | |
327 | ||
3dab1cef | 328 | // if(gMC->CurrentVolID(copy) == gMC->VolId("PPIN"))//We are inside the PIN diode |
329 | // { | |
330 | // cout<<" Inside PIN "<<endl; | |
331 | // gMC->TrackPosition(pos) ; | |
332 | // global[0] = pos[0] ; | |
333 | // global[1] = pos[1] ; | |
334 | // global[2] = pos[2] ; | |
335 | // xyze[0] = pos[0] ; | |
336 | // xyze[1] = pos[1] ; | |
337 | // xyze[2] = pos[2] ; | |
338 | // lostenergy = gMC->Edep() ; | |
339 | // xyze[3] = gMC->Edep() ; | |
037cc66d | 340 | |
3dab1cef | 341 | // if ( xyze[3] != 0 ) { |
342 | // gMC->CurrentVolOffID(11, relid[0]) ; // get the PHOS module number ; | |
343 | // relid[1] = 0 ; // means PW04 and PIN | |
344 | // gMC->CurrentVolOffID(5, relid[2]) ; // get the row number inside the module | |
345 | // gMC->CurrentVolOffID(4, relid[3]) ; // get the cell number inside the module | |
037cc66d | 346 | |
3dab1cef | 347 | // // get the absolute Id number |
037cc66d | 348 | |
3dab1cef | 349 | // Int_t absid ; |
350 | // GetGeometry()->RelToAbsNumbering(relid,absid) ; | |
351 | // gMC->Gmtod(global, local, 1) ; | |
50abc6f8 | 352 | |
3dab1cef | 353 | // // calculating number of electrons in the PIN diode asociated to this hit |
50abc6f8 | 354 | |
3dab1cef | 355 | // //nElectrons = lostenergy * fElectronsPerGeV ; |
356 | // // xyze[3] = nElectrons * fRecalibrationFactor ; | |
357 | // apdgain = gRandom->Poisson(300.) ; | |
358 | // // apdgain = 300.; | |
359 | // //if(local[1]<-0.0045) xyze[3] = apdgain * nElectrons * fRecalibrationFactor/10000.; | |
68140e39 | 360 | |
3dab1cef | 361 | // if(local[1]<-0.0045) xyze[3] = apdgain * lostenergy * fElectronsPerGeV* (fRecalibrationFactor/100.); |
68140e39 | 362 | |
3dab1cef | 363 | // //if((local[1]>-0.0045)&&(gMC->TrackPid()==-11)) xyze[3] = apdgain * nElectrons * fRecalibrationFactor/10000.; |
68140e39 | 364 | |
3dab1cef | 365 | // if((local[1]>-0.0045)&&(gMC->TrackPid()==-11)) xyze[3] = apdgain * lostenergy * fElectronsPerGeV * (fRecalibrationFactor/100.); |
68140e39 | 366 | |
3dab1cef | 367 | // //if(local[1]>-0.0045) xyze[3] = nElectrons * fRecalibrationFactor/10000.; |
68140e39 | 368 | |
3dab1cef | 369 | // if(local[1]>-0.0045) xyze[3] = lostenergy * fElectronsPerGeV * (fRecalibrationFactor/100.); |
037cc66d | 370 | |
3dab1cef | 371 | // // add current hit to the hit list |
50abc6f8 | 372 | |
3dab1cef | 373 | // AddHit(fIshunt, primary, tracknumber, absid, xyze); |
50abc6f8 | 374 | |
3dab1cef | 375 | // //printf("PIN volume is %d, %d, %d, %d \n",relid[0],relid[1],relid[2],relid[3]); |
376 | // printf("Lost energy in the PIN is %f \n",lostenergy) ; | |
377 | // } // there is deposited energy | |
378 | // } // we are inside a PHOS XtalPHOS PIN diode | |
5f20d3fb | 379 | } |