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68ca986e | 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 | ||
88cb7938 | 16 | /* $Id$ */ |
116cbefd | 17 | |
8a2624cc | 18 | ////////////////////////////////////////////////////////////////////// |
19 | // // // | |
20 | // Generator of spectator nucleons (either protons or neutrons)// | |
21 | // computes beam crossing and divergence and Fermi momentum // | |
22 | // // | |
23 | ///////////////////////////////////////////////////////////////////// | |
24 | ||
94de3818 | 25 | #include <assert.h> |
26 | ||
116cbefd | 27 | #include <TDatabasePDG.h> |
68ca986e | 28 | #include <TLorentzVector.h> |
116cbefd | 29 | #include <TMCProcess.h> |
30 | #include <TPDGCode.h> | |
31 | #include <TRandom.h> | |
68ca986e | 32 | #include <TVector3.h> |
33 | ||
68ca986e | 34 | #include "AliConst.h" |
116cbefd | 35 | #include "AliGenZDC.h" |
68ca986e | 36 | #include "AliRun.h" |
5d12ce38 | 37 | #include "AliMC.h" |
68ca986e | 38 | |
39 | ClassImp(AliGenZDC) | |
40 | ||
41 | //_____________________________________________________________________________ | |
42 | AliGenZDC::AliGenZDC() | |
a718c993 | 43 | :AliGenerator(), |
44 | fIpart(0), | |
45 | fCosx(0), | |
46 | fCosy(0), | |
47 | fCosz(0), | |
48 | fPseudoRapidity(0), | |
49 | fFermiflag(0), | |
50 | fBeamDiv(0), | |
51 | fBeamCrossAngle(0), | |
52 | fBeamCrossPlane(0), | |
53 | fDebugOpt(0) | |
68ca986e | 54 | { |
55 | // | |
56 | // Default constructor | |
57 | // | |
68ca986e | 58 | } |
59 | ||
60 | //_____________________________________________________________________________ | |
61 | AliGenZDC::AliGenZDC(Int_t npart) | |
a718c993 | 62 | :AliGenerator(npart), |
63 | fIpart(kNeutron), | |
64 | fCosx(0.), | |
65 | fCosy(0.), | |
66 | fCosz(1.), | |
67 | fPseudoRapidity(0.), | |
68 | fFermiflag(1), | |
69 | fBeamDiv(0.000032), | |
70 | fBeamCrossAngle(0.0001), | |
71 | fBeamCrossPlane(2), | |
72 | fDebugOpt(0) | |
68ca986e | 73 | { |
74 | // | |
75 | // Standard constructor | |
76 | // | |
77 | fName = "AliGenZDC"; | |
78 | fTitle = "Generation of Test Particles for ZDCs"; | |
5a881c97 | 79 | |
80 | Int_t i, j; | |
81 | for(i=0; i<201; i++){ | |
82 | fProbintp[i] = 0; | |
83 | fProbintn[i] = 0; | |
84 | } | |
c294be39 | 85 | for(j=0; j<3; j++) fPp[i] = 0; |
68ca986e | 86 | } |
87 | ||
88 | //_____________________________________________________________________________ | |
89 | void AliGenZDC::Init() | |
90 | { | |
8a2624cc | 91 | //Initialize Fermi momentum distributions for Pb-Pb |
92 | // | |
c294be39 | 93 | printf("\n\n AliGenZDC initialization:\n"); |
94 | printf(" Particle: %d, Track cosines: x = %f, y = %f, z = %f \n", | |
95 | fIpart,fCosx,fCosy,fCosz); | |
96 | printf(" Fermi flag = %d, Beam divergence = %f, Crossing angle " | |
97 | "= %f, Crossing plane = %d\n\n", fFermiflag, fBeamDiv, fBeamCrossAngle, | |
68ca986e | 98 | fBeamCrossPlane); |
5a881c97 | 99 | |
fd9afd60 | 100 | FermiTwoGaussian(208.); |
68ca986e | 101 | } |
102 | ||
103 | //_____________________________________________________________________________ | |
104 | void AliGenZDC::Generate() | |
105 | { | |
106 | // | |
107 | // Generate one trigger (n or p) | |
108 | // | |
c0ceba4c | 109 | Int_t i; |
110 | ||
8a2624cc | 111 | Double_t mass, pLab[3], fP0, fP[3], fBoostP[3], ddp[3], dddp0, dddp[3]; |
5a881c97 | 112 | Float_t fPTrack[3], ptot = fPMin; |
68ca986e | 113 | Int_t nt; |
114 | ||
866ab5a2 | 115 | if(fPseudoRapidity==0.){ |
68ca986e | 116 | pLab[0] = ptot*fCosx; |
117 | pLab[1] = ptot*fCosy; | |
118 | pLab[2] = ptot*fCosz; | |
119 | } | |
120 | else{ | |
121 | Float_t scang = 2*TMath::ATan(TMath::Exp(-(fPseudoRapidity))); | |
122 | pLab[0] = -ptot*TMath::Sin(scang); | |
123 | pLab[1] = 0.; | |
124 | pLab[2] = ptot*TMath::Cos(scang); | |
125 | } | |
c294be39 | 126 | for(i=0; i<=2; i++) fP[i] = pLab[i]; |
127 | if(fDebugOpt == 1){ | |
128 | printf("\n\n Particle momentum before divergence and crossing\n"); | |
129 | for(i=0; i<=2; i++)printf(" pLab[%d] = %f\n",i,pLab[i]); | |
68ca986e | 130 | } |
131 | ||
132 | // Beam divergence and crossing angle | |
866ab5a2 | 133 | if(fBeamCrossAngle!=0.) { |
92339a90 | 134 | BeamDivCross(1, pLab); |
c294be39 | 135 | for(i=0; i<=2; i++) fP[i] = pLab[i]; |
866ab5a2 | 136 | } |
137 | if(fBeamDiv!=0.) { | |
92339a90 | 138 | BeamDivCross(0, pLab); |
c294be39 | 139 | for(i=0; i<=2; i++) fP[i] = pLab[i]; |
866ab5a2 | 140 | } |
141 | ||
68ca986e | 142 | // If required apply the Fermi momentum |
143 | if(fFermiflag==1){ | |
c294be39 | 144 | if((fIpart==kProton) || (fIpart==kNeutron)) |
92339a90 | 145 | ExtractFermi(fIpart, ddp); |
fc22e8ec | 146 | mass=TDatabasePDG::Instance()->GetParticle(fIpart)->Mass(); |
8a2624cc | 147 | fP0 = TMath::Sqrt(fP[0]*fP[0]+fP[1]*fP[1]+fP[2]*fP[2]+mass*mass); |
c294be39 | 148 | for(i=0; i<=2; i++) dddp[i] = ddp[i]; |
8a2624cc | 149 | dddp0 = TMath::Sqrt(dddp[0]*dddp[0]+dddp[1]*dddp[1]+dddp[2]*dddp[2]+mass*mass); |
68ca986e | 150 | |
866ab5a2 | 151 | TVector3 b(fP[0]/fP0, fP[1]/fP0, fP[2]/fP0); |
68ca986e | 152 | TLorentzVector pFermi(dddp[0], dddp[1], dddp[2], dddp0); |
153 | ||
68ca986e | 154 | pFermi.Boost(b); |
c0ceba4c | 155 | for(i=0; i<=2; i++){ |
68ca986e | 156 | fBoostP[i] = pFermi[i]; |
866ab5a2 | 157 | fP[i] = pFermi[i]; |
68ca986e | 158 | } |
159 | ||
160 | } | |
866ab5a2 | 161 | |
c294be39 | 162 | for(i=0; i<=2; i++) fPTrack[i] = fP[i]; |
866ab5a2 | 163 | |
68ca986e | 164 | Float_t polar[3] = {0,0,0}; |
5d12ce38 | 165 | gAlice->GetMCApp()->PushTrack(fTrackIt,-1,fIpart,fPTrack,fOrigin.GetArray(),polar,0, |
1de555dc | 166 | kPPrimary,nt); |
03cc1ceb | 167 | // ----------------------------------------------------------------------- |
5a881c97 | 168 | if(fDebugOpt == 1){ |
169 | printf("\n\n Track momentum:\n"); | |
170 | printf("\n fPTrack = %f, %f, %f \n",fPTrack[0],fPTrack[1],fPTrack[2]); | |
171 | } | |
03cc1ceb | 172 | else if(fDebugOpt == 2){ |
173 | FILE *file; | |
174 | if((file = fopen("SpectMomentum.dat","a")) == NULL){ | |
175 | printf("Cannot open file SpectMomentum.dat\n"); | |
176 | return; | |
177 | } | |
178 | fprintf(file," %f \t %f \t %f \n",fPTrack[0],fPTrack[1],fPTrack[2]); | |
179 | fclose(file); | |
180 | } | |
181 | ||
68ca986e | 182 | } |
183 | ||
184 | //_____________________________________________________________________________ | |
92339a90 | 185 | void AliGenZDC::FermiTwoGaussian(Float_t A) |
68ca986e | 186 | { |
187 | // | |
188 | // Momenta distributions according to the "double-gaussian" | |
189 | // distribution (Ilinov) - equal for protons and neutrons | |
190 | // | |
5a881c97 | 191 | |
68ca986e | 192 | Double_t sig1 = 0.113; |
193 | Double_t sig2 = 0.250; | |
194 | Double_t alfa = 0.18*(TMath::Power((A/12.),(Float_t)1/3)); | |
195 | Double_t xk = (2*k2PI)/((1.+alfa)*(TMath::Power(k2PI,1.5))); | |
196 | ||
197 | for(Int_t i=1; i<=200; i++){ | |
198 | Double_t p = i*0.005; | |
199 | fPp[i] = p; | |
68ca986e | 200 | Double_t e1 = (p*p)/(2.*sig1*sig1); |
201 | Double_t e2 = (p*p)/(2.*sig2*sig2); | |
202 | Double_t f1 = TMath::Exp(-(e1)); | |
203 | Double_t f2 = TMath::Exp(-(e2)); | |
204 | Double_t probp = xk*p*p*(f1/(TMath::Power(sig1,3.))+ | |
205 | alfa*f2/(TMath::Power(sig2,3.)))*0.005; | |
68ca986e | 206 | fProbintp[i] = fProbintp[i-1] + probp; |
207 | fProbintn[i] = fProbintp[i]; | |
5a881c97 | 208 | } |
209 | if(fDebugOpt == 1){ | |
210 | printf("\n\n Initialization of Fermi momenta distribution \n"); | |
c294be39 | 211 | //for(Int_t i=0; i<=200; i++) |
212 | // printf(" fProbintp[%d] = %f, fProbintn[%d] = %f\n",i,fProbintp[i],i,fProbintn[i]); | |
68ca986e | 213 | } |
214 | } | |
215 | //_____________________________________________________________________________ | |
92339a90 | 216 | void AliGenZDC::ExtractFermi(Int_t id, Double_t *ddp) |
68ca986e | 217 | { |
218 | // | |
219 | // Compute Fermi momentum for spectator nucleons | |
220 | // | |
5a881c97 | 221 | |
68ca986e | 222 | Int_t i; |
223 | Float_t xx = gRandom->Rndm(); | |
699b37ac | 224 | assert ( id==kProton || id==kNeutron ); |
68ca986e | 225 | if(id==kProton){ |
0ff3ad02 | 226 | for(i=1; i<=200; i++){ |
68ca986e | 227 | if((xx>=fProbintp[i-1]) && (xx<fProbintp[i])) break; |
228 | } | |
229 | } | |
94de3818 | 230 | else { |
68ca986e | 231 | for(i=0; i<=200; i++){ |
232 | if((xx>=fProbintn[i-1]) && (xx<fProbintn[i])) break; | |
233 | } | |
234 | } | |
235 | Float_t pext = fPp[i]+0.001; | |
236 | Float_t phi = k2PI*(gRandom->Rndm()); | |
237 | Float_t cost = (1.-2.*(gRandom->Rndm())); | |
238 | Float_t tet = TMath::ACos(cost); | |
239 | ddp[0] = pext*TMath::Sin(tet)*TMath::Cos(phi); | |
240 | ddp[1] = pext*TMath::Sin(tet)*TMath::Sin(phi); | |
241 | ddp[2] = pext*cost; | |
5a881c97 | 242 | |
243 | if(fDebugOpt == 1){ | |
244 | printf("\n\n Extraction of Fermi momentum\n"); | |
245 | printf("\n pxFermi = %f pyFermi = %f pzFermi = %f \n",ddp[0],ddp[1],ddp[2]); | |
246 | } | |
68ca986e | 247 | } |
248 | ||
249 | //_____________________________________________________________________________ | |
92339a90 | 250 | void AliGenZDC::BeamDivCross(Int_t icross, Double_t *pLab) |
68ca986e | 251 | { |
8a2624cc | 252 | // Applying beam divergence and crossing angle |
253 | // | |
866ab5a2 | 254 | Double_t tetpart, fipart, tetdiv=0, fidiv=0, angleSum[2], tetsum, fisum; |
68ca986e | 255 | Double_t rvec; |
c0ceba4c | 256 | |
68ca986e | 257 | Double_t pmq = 0.; |
c294be39 | 258 | Int_t i; |
259 | for(i=0; i<=2; i++) pmq = pmq+pLab[i]*pLab[i]; | |
68ca986e | 260 | Double_t pmod = TMath::Sqrt(pmq); |
68ca986e | 261 | |
03cc1ceb | 262 | if(icross==0){ // ##### Beam divergence |
68ca986e | 263 | rvec = gRandom->Gaus(0.0,1.0); |
264 | tetdiv = fBeamDiv * TMath::Abs(rvec); | |
265 | fidiv = (gRandom->Rndm())*k2PI; | |
266 | } | |
03cc1ceb | 267 | else if(icross==1){ // ##### Crossing angle |
92339a90 | 268 | if(fBeamCrossPlane==0){ |
68ca986e | 269 | tetdiv = 0.; |
270 | fidiv = 0.; | |
271 | } | |
92339a90 | 272 | else if(fBeamCrossPlane==1){ // Horizontal crossing plane |
68ca986e | 273 | tetdiv = fBeamCrossAngle; |
274 | fidiv = 0.; | |
275 | } | |
92339a90 | 276 | else if(fBeamCrossPlane==2){ // Vertical crossing plane |
68ca986e | 277 | tetdiv = fBeamCrossAngle; |
736c9b58 | 278 | fidiv = k2PI/4.; |
68ca986e | 279 | } |
280 | } | |
866ab5a2 | 281 | |
03cc1ceb | 282 | tetpart = TMath::ATan2(TMath::Sqrt(pLab[0]*pLab[0]+pLab[1]*pLab[1]),pLab[2]); |
c294be39 | 283 | if(pLab[1]!=0. || pLab[0]!=0.) fipart = TMath::ATan2(pLab[1],pLab[0]); |
284 | else fipart = 0.; | |
68ca986e | 285 | if(fipart<0.) {fipart = fipart+k2PI;} |
68ca986e | 286 | tetdiv = tetdiv*kRaddeg; |
287 | fidiv = fidiv*kRaddeg; | |
288 | tetpart = tetpart*kRaddeg; | |
289 | fipart = fipart*kRaddeg; | |
290 | AddAngle(tetpart,fipart,tetdiv,fidiv,angleSum); | |
291 | tetsum = angleSum[0]; | |
292 | fisum = angleSum[1]; | |
68ca986e | 293 | tetsum = tetsum*kDegrad; |
294 | fisum = fisum*kDegrad; | |
295 | pLab[0] = pmod*TMath::Sin(tetsum)*TMath::Cos(fisum); | |
296 | pLab[1] = pmod*TMath::Sin(tetsum)*TMath::Sin(fisum); | |
03cc1ceb | 297 | pLab[2] = pmod*TMath::Cos(tetsum); |
5a881c97 | 298 | if(fDebugOpt == 1){ |
03cc1ceb | 299 | if(icross==0) printf("\n\n Beam divergence \n"); |
300 | else printf("\n\n Beam crossing \n"); | |
c294be39 | 301 | for(i=0; i<=2; i++)printf(" pLab[%d] = %f\n",i,pLab[i]); |
68ca986e | 302 | } |
303 | } | |
304 | ||
305 | //_____________________________________________________________________________ | |
306 | void AliGenZDC::AddAngle(Double_t theta1, Double_t phi1, Double_t theta2, | |
5a881c97 | 307 | Double_t phi2, Double_t *angleSum) |
8a2624cc | 308 | { |
309 | // Calculating the sum of 2 angles | |
68ca986e | 310 | Double_t temp, conv, cx, cy, cz, ct1, st1, ct2, st2, cp1, sp1, cp2, sp2; |
311 | Double_t rtetsum, tetsum, fisum; | |
312 | ||
313 | temp = -1.; | |
314 | conv = 180./TMath::ACos(temp); | |
315 | ||
316 | ct1 = TMath::Cos(theta1/conv); | |
317 | st1 = TMath::Sin(theta1/conv); | |
318 | cp1 = TMath::Cos(phi1/conv); | |
319 | sp1 = TMath::Sin(phi1/conv); | |
320 | ct2 = TMath::Cos(theta2/conv); | |
321 | st2 = TMath::Sin(theta2/conv); | |
322 | cp2 = TMath::Cos(phi2/conv); | |
323 | sp2 = TMath::Sin(phi2/conv); | |
324 | cx = ct1*cp1*st2*cp2+st1*cp1*ct2-sp1*st2*sp2; | |
325 | cy = ct1*sp1*st2*cp2+st1*sp1*ct2+cp1*st2*sp2; | |
326 | cz = ct1*ct2-st1*st2*cp2; | |
327 | ||
328 | rtetsum = TMath::ACos(cz); | |
329 | tetsum = conv*rtetsum; | |
330 | if(tetsum==0. || tetsum==180.){ | |
331 | fisum = 0.; | |
332 | return; | |
333 | } | |
334 | temp = cx/TMath::Sin(rtetsum); | |
335 | if(temp>1.) temp=1.; | |
336 | if(temp<-1.) temp=-1.; | |
337 | fisum = conv*TMath::ACos(temp); | |
338 | if(cy<0) {fisum = 360.-fisum;} | |
68ca986e | 339 | angleSum[0] = tetsum; |
340 | angleSum[1] = fisum; | |
341 | } | |
342 |