1 /**************************************************************************
2 * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
4 * Author: The ALICE Off-line Project. *
5 * Contributors are mentioned in the code where appropriate. *
7 * Permission to use, copy, modify and distribute this software and its *
8 * documentation strictly for non-commercial purposes is hereby granted *
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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 *
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14 **************************************************************************/
19 // Classe to create the MUON coktail for physics in the Alice muon spectrometer
20 // The followoing muons sources are included in this cocktail:
21 // jpsi, upsilon, non-correlated open and beauty, and muons from pion and kaons.
22 // The free parameeters are :
23 // pp reaction cross-section
24 // production cross-sections in pp collisions and
25 // branching ratios in the muon channel
26 // Hard probes are supposed to scale with Ncoll and hadronic production with (0.8Ncoll+0.2*Npart)
27 // There is a primordial trigger wiche requires :
28 // a minimum muon multiplicity above a pT cut in a theta acceptance cone
30 // Gines Martinez, jan 2004, Nantes martinez@in2p3.fr
35 #include <TObjArray.h>
36 #include <TParticle.h>
38 #include "AliGenCocktailEntry.h"
39 #include "AliGenMUONCocktail.h"
40 #include "AliGenMUONlib.h"
41 #include "AliGenParam.h"
46 ClassImp(AliGenMUONCocktail)
49 //________________________________________________________________________
50 AliGenMUONCocktail::AliGenMUONCocktail()
59 fMuonThetaMinCut=171.;
60 fMuonThetaMaxCut=178.;
61 fNumberOfCollisions = 400; // Minimum bias Pb+Pb collisions
64 //_________________________________________________________________________
65 AliGenMUONCocktail::AliGenMUONCocktail(const AliGenMUONCocktail & cocktail):
66 AliGenCocktail(cocktail)
74 fMuonThetaMinCut=171.;
75 fMuonThetaMaxCut=178.;
76 fNumberOfCollisions = 400; // Minimum bias Pb+Pb collisions
79 //_________________________________________________________________________
80 AliGenMUONCocktail::~AliGenMUONCocktail()
85 //_________________________________________________________________________
86 void AliGenMUONCocktail::Init()
88 // Defining MUON physics cocktail
90 // Kinematical limits for particle generation
91 Float_t ptMin = fPtMin;
92 Float_t ptMax = fPtMax;
93 Float_t yMin = fYMin;;
94 Float_t yMax = fYMax;;
95 Float_t phiMin = fPhiMin*180./TMath::Pi();
96 Float_t phiMax = fPhiMax*180./TMath::Pi();
97 printf(">>> Kinematical range pT:%f:%f y:%f:%f Phi:%f:%f\n",ptMin,ptMax,yMin,yMax,phiMin,phiMax);
99 Float_t sigmaReaction = 0.072; // MINB pp at LHC energies 72 mb
101 // Generating J/Psi Physics
102 AliGenParam * genjpsi = new AliGenParam(1, AliGenMUONlib::kJpsi, "Vogt", "Jpsi");
104 genjpsi->SetPtRange(0,100.);
105 genjpsi->SetYRange(-8.,8);
106 genjpsi->SetPhiRange(0.,360.);
107 genjpsi->SetForceDecay(kDiMuon);
108 genjpsi->SetTrackingFlag(1);
109 // Calculation of the paritcle multiplicity per event in the muonic channel
110 Float_t ratiojpsi; // Ratio with respect to the reaction cross-section for the muonic channel in the kinematics limit of the MUONCocktail
111 Float_t sigmajpsi = 31.0e-6 * 0.437; // section "6.7 Quarkonia Production" table 6.5 for pp times shadowing
112 Float_t brjpsi = 0.0588; // Branching Ratio for JPsi
113 genjpsi->Init(); // Generating pT and Y parametrsation for the 4pi
114 ratiojpsi = sigmajpsi * brjpsi * fNumberOfCollisions / sigmaReaction * genjpsi->GetRelativeArea(ptMin,ptMax,yMin,yMax,phiMin,phiMax);
115 printf(">>> ratio jpsi %g et %g Ncol %g sigma %g\n",ratiojpsi,genjpsi->GetRelativeArea(ptMin,ptMax,yMin,yMax,phiMin,phiMax),fNumberOfCollisions, sigmajpsi );
116 // Generation in the kinematical limits of AliGenMUONCocktail
117 genjpsi->SetPtRange(ptMin, ptMax);
118 genjpsi->SetYRange(yMin, yMax);
119 genjpsi->SetPhiRange(phiMin, phiMax);
120 genjpsi->Init(); // Generating pT and Y parametrsation in the desired kinematic range
122 AddGenerator(genjpsi, "Jpsi", ratiojpsi);
123 fTotalRate+=ratiojpsi;
125 // Generating Psi prime Physics
126 AliGenParam * genpsiP = new AliGenParam(1, AliGenMUONlib::kPsiP, "Vogt", "PsiP");
128 genpsiP->SetPtRange(0,100.);
129 genpsiP->SetYRange(-8.,8);
130 genpsiP->SetPhiRange(0.,360.);
131 genpsiP->SetForceDecay(kDiMuon);
132 genpsiP->SetTrackingFlag(1);
133 // Calculation of the paritcle multiplicity per event in the muonic channel
134 Float_t ratiopsiP; // Ratio with respect to the reaction cross-section for the muonic channel in the kinematics limit of the MUONCocktail
135 Float_t sigmapsiP = 4.68e-6 * 0.437; // section "6.7 Quarkonia Production" table 6.5 for pp times shadowing
136 Float_t brpsiP = 0.0103; // Branching Ratio for PsiP
137 genpsiP->Init(); // Generating pT and Y parametrsation for the 4pi
138 ratiopsiP = sigmapsiP * brpsiP * fNumberOfCollisions / sigmaReaction * genpsiP->GetRelativeArea(ptMin,ptMax,yMin,yMax,phiMin,phiMax);
139 printf(">>> ratio psiP %g et %g Ncol %g sigma %g\n",ratiopsiP,genpsiP->GetRelativeArea(ptMin,ptMax,yMin,yMax,phiMin,phiMax),fNumberOfCollisions, sigmapsiP );
140 // Generation in the kinematical limits of AliGenMUONCocktail
141 genpsiP->SetPtRange(ptMin, ptMax);
142 genpsiP->SetYRange(yMin, yMax);
143 genpsiP->SetPhiRange(phiMin, phiMax);
144 genpsiP->Init(); // Generating pT and Y parametrsation in the desired kinematic range
146 AddGenerator(genpsiP, "PsiP", ratiopsiP);
147 fTotalRate+=ratiopsiP;
150 // Generating Upsilon Physics
151 AliGenParam * genupsilon = new AliGenParam(1, AliGenMUONlib::kUpsilon, "Vogt", "Upsilon");
152 genupsilon->SetPtRange(0,100.);
153 genupsilon->SetYRange(-8.,8);
154 genupsilon->SetPhiRange(0.,360.);
155 genupsilon->SetForceDecay(kDiMuon);
156 genupsilon->SetTrackingFlag(1);
157 Float_t ratioupsilon; // Ratio with respect to the reaction cross-section for the muonic channel in the kinematics limit of the MUONCocktail
158 Float_t sigmaupsilon = 0.501e-6 * 0.674; // section "6.7 Quarkonia Production" table 6.5 for pp times shadowing
159 Float_t brupsilon = 0.0248; // Branching Ratio for Upsilon
160 genupsilon->Init(); // Generating pT and Y parametrsation for the 4pi
161 ratioupsilon = sigmaupsilon * brupsilon * fNumberOfCollisions / sigmaReaction * genupsilon->GetRelativeArea(ptMin,ptMax,yMin,yMax,phiMin,phiMax);
162 printf(">>> ratio upsilon %g et %g\n",ratioupsilon, genupsilon->GetRelativeArea(ptMin,ptMax,yMin,yMax,phiMin,phiMax));
163 genupsilon->SetPtRange(ptMin, ptMax);
164 genupsilon->SetYRange(yMin, yMax);
165 genupsilon->SetPhiRange(phiMin, phiMax);
166 genupsilon->Init(); // Generating pT and Y parametrsation in the desired kinematic range
167 AddGenerator(genupsilon,"Upsilon", ratioupsilon);
168 fTotalRate+=ratioupsilon;
170 // Generating UpsilonP Physics
171 AliGenParam * genupsilonP = new AliGenParam(1, AliGenMUONlib::kUpsilonP, "Vogt", "UpsilonP");
172 genupsilonP->SetPtRange(0,100.);
173 genupsilonP->SetYRange(-8.,8);
174 genupsilonP->SetPhiRange(0.,360.);
175 genupsilonP->SetForceDecay(kDiMuon);
176 genupsilonP->SetTrackingFlag(1);
177 Float_t ratioupsilonP; // Ratio with respect to the reaction cross-section for the muonic channel in the kinematics limit of the MUONCocktail
178 Float_t sigmaupsilonP = 0.246e-6 * 0.674; // section "6.7 Quarkonia Production" table 6.5 for pp times shadowing
179 Float_t brupsilonP = 0.0131; // Branching Ratio for UpsilonP
180 genupsilonP->Init(); // Generating pT and Y parametrsation for the 4pi
181 ratioupsilonP = sigmaupsilonP * brupsilonP * fNumberOfCollisions / sigmaReaction * genupsilonP->GetRelativeArea(ptMin,ptMax,yMin,yMax,phiMin,phiMax);
182 printf(">>> ratio upsilonP %g et %g\n",ratioupsilonP, genupsilonP->GetRelativeArea(ptMin,ptMax,yMin,yMax,phiMin,phiMax));
183 genupsilonP->SetPtRange(ptMin, ptMax);
184 genupsilonP->SetYRange(yMin, yMax);
185 genupsilonP->SetPhiRange(phiMin, phiMax);
186 genupsilonP->Init(); // Generating pT and Y parametrsation in the desired kinematic range
187 AddGenerator(genupsilonP,"UpsilonP", ratioupsilonP);
188 fTotalRate+=ratioupsilonP;
191 // Generating UpsilonPP Physics
192 AliGenParam * genupsilonPP = new AliGenParam(1, AliGenMUONlib::kUpsilonPP, "Vogt", "UpsilonPP");
193 genupsilonPP->SetPtRange(0,100.);
194 genupsilonPP->SetYRange(-8.,8);
195 genupsilonPP->SetPhiRange(0.,360.);
196 genupsilonPP->SetForceDecay(kDiMuon);
197 genupsilonPP->SetTrackingFlag(1);
198 Float_t ratioupsilonPP; // Ratio with respect to the reaction cross-section for the muonic channel in the kinematics limit of the MUONCocktail
199 Float_t sigmaupsilonPP = 0.100e-6 * 0.674; // section "6.7 Quarkonia Production" table 6.5 for pp times shadowing
200 Float_t brupsilonPP = 0.0181; // Branching Ratio for UpsilonPP
201 genupsilonPP->Init(); // Generating pT and Y parametrsation for the 4pi
202 ratioupsilonPP = sigmaupsilonPP * brupsilonPP * fNumberOfCollisions / sigmaReaction * genupsilonPP->GetRelativeArea(ptMin,ptMax,yMin,yMax,phiMin,phiMax);
203 printf(">>> ratio upsilonPP %g et %g\n",ratioupsilonPP, genupsilonPP->GetRelativeArea(ptMin,ptMax,yMin,yMax,phiMin,phiMax));
204 genupsilonPP->SetPtRange(ptMin, ptMax);
205 genupsilonPP->SetYRange(yMin, yMax);
206 genupsilonPP->SetPhiRange(phiMin, phiMax);
207 genupsilonPP->Init(); // Generating pT and Y parametrsation in the desired kinematic range
208 AddGenerator(genupsilonPP,"UpsilonPP", ratioupsilonPP);
209 fTotalRate+=ratioupsilonPP;
212 // Generating Charm Physics
213 AliGenParam * gencharm = new AliGenParam(1, AliGenMUONlib::kCharm, "Vogt", "Charm");
214 gencharm->SetPtRange(0,100.);
215 gencharm->SetYRange(-8.,8);
216 gencharm->SetPhiRange(0.,360.);
217 gencharm->SetForceDecay(kSemiMuonic);
218 gencharm->SetTrackingFlag(1);
219 Float_t ratiocharm; // Ratio with respect to the reaction cross-section for the muonic channel in the kinematics limit of the MUONCocktail
220 Float_t sigmacharm = 2. * 6.64e-3 * 0.65 ; //
221 Float_t brcharm = 0.12; // Branching Ratio for Charm
222 gencharm->Init(); // Generating pT and Y parametrsation for the 4pi
223 ratiocharm = sigmacharm * brcharm * fNumberOfCollisions / sigmaReaction *
224 gencharm->GetRelativeArea(ptMin,ptMax,yMin,yMax,phiMin,phiMax);
225 gencharm->SetPtRange(ptMin, ptMax);
226 gencharm->SetYRange(yMin, yMax);
227 gencharm->SetPhiRange(phiMin, phiMax);
228 gencharm->Init(); // Generating pT and Y parametrsation in the desired kinematic range
230 printf(">>> ratio charm %f\n",ratiocharm);
231 AddGenerator(gencharm,"Charm", ratiocharm);
232 fTotalRate+=ratiocharm;
234 // Generating Beauty Physics "Correlated Pairs"
235 AliGenParam * genbeauty = new AliGenParam(2, AliGenMUONlib::kBeauty, "Vogt", "Beauty");
236 genbeauty->SetPtRange(0,100.);
237 genbeauty->SetYRange(-8.,8);
238 genbeauty->SetPhiRange(0.,360.);
239 genbeauty->SetForceDecay(kSemiMuonic);
240 genbeauty->SetTrackingFlag(1);
241 Float_t ratiobeauty; // Ratio with respect to the reaction cross-section for the muonic channel in the kinematics limit of the MUONCocktail
242 Float_t sigmabeauty = 2. * 0.210e-3 * 0.84; //
243 Float_t brbeauty = 0.15; // Branching Ratio for Beauty
244 genbeauty->Init(); // Generating pT and Y parametrsation for the 4pi
245 ratiobeauty = sigmabeauty * brbeauty * fNumberOfCollisions / sigmaReaction *
246 genbeauty->GetRelativeArea(ptMin,ptMax,yMin,yMax,phiMin,phiMax);
247 genbeauty->SetPtRange(ptMin, ptMax);
248 genbeauty->SetYRange(yMin, yMax);
249 genbeauty->SetPhiRange(phiMin, phiMax);
250 genbeauty->Init(); // Generating pT and Y parametrisation in the desired kinematic range
252 printf(">>> ratio beauty %f\n",ratiobeauty);
253 AddGenerator(genbeauty,"Beauty", ratiobeauty);
254 fTotalRate+=ratiobeauty;
256 // Generating Pion Physics
257 AliGenParam * genpion = new AliGenParam(1, AliGenMUONlib::kPion, "Vogt", "Pion");
258 genpion->SetPtRange(0,100.);
259 genpion->SetYRange(-8.,8);
260 genpion->SetPhiRange(0.,360.);
261 genpion->SetForceDecay(kPiToMu);
262 genpion->SetTrackingFlag(1);
263 Float_t ratiopion; // Ratio with respect to the reaction cross-section for the muonic channel in the kinematics limit of the MUONCocktail
264 Float_t sigmapion = 0.93e-2; // Valerie presentation Clermont-16-jan-2004 and Alice-int-2002-06
265 Float_t brpion = 0.9999; // Branching Ratio for Pion
266 genpion->Init(); // Generating pT and Y parametrsation for the 4pi
267 ratiopion = sigmapion * brpion * (0.80*fNumberOfParticipants+0.2*fNumberOfCollisions) / sigmaReaction * genpion->GetRelativeArea(ptMin,ptMax,yMin,yMax,phiMin,phiMax);
268 genpion->SetPtRange(ptMin, ptMax);
269 genpion->SetYRange(yMin, yMax);
270 genpion->SetPhiRange(phiMin, phiMax);
271 genpion->Init(); // Generating pT and Y parametrsation in the desired kinematic range
272 printf(">>> ratio pion %f\n",ratiopion);
273 AddGenerator(genpion,"Pion", ratiopion);
274 fTotalRate+=ratiopion;
276 // Generating Kaon Physics
277 AliGenParam * genkaon = new AliGenParam(1, AliGenMUONlib::kKaon, "Vogt", "Kaon");
278 genkaon->SetPtRange(0,100.);
279 genkaon->SetYRange(-8.,8);
280 genkaon->SetPhiRange(0.,360.);
281 genkaon->SetForceDecay(kKaToMu);
282 genkaon->SetTrackingFlag(1);
283 Float_t ratiokaon; // Ratio with respect to the reaction cross-section for the muonic channel in the kinematics limit of the MUONCocktail
284 Float_t sigmakaon = 1.23e-4; // Valerie presentation Clermont-16-jan-2004 and Alice-int-2002-06
285 Float_t brkaon = 0.6351 ; // Branching Ratio for Kaon
286 genkaon->Init(); // Generating pT and Y parametrsation for the 4pi
287 ratiokaon = sigmakaon * brkaon * (0.80*fNumberOfParticipants+0.2*fNumberOfCollisions)/ sigmaReaction * genkaon->GetRelativeArea(ptMin,ptMax,yMin,yMax,phiMin,phiMax);
288 genkaon->SetPtRange(ptMin, ptMax);
289 genkaon->SetYRange(yMin, yMax);
290 genkaon->SetPhiRange(phiMin, phiMax);
291 genkaon->Init(); // Generating pT and Y parametrsation in the desired kinematic range
292 printf(">>> ratio kaon %f\n",ratiokaon);
293 AddGenerator(genkaon,"Kaon", ratiokaon);
294 fTotalRate+=ratiokaon;
297 //_________________________________________________________________________
298 void AliGenMUONCocktail::Generate()
302 TIter next(fEntries);
303 AliGenCocktailEntry *entry = 0;
304 AliGenCocktailEntry *preventry = 0;
305 AliGenerator* gen = 0;
307 TObjArray *partArray = gAlice->GetMCApp()->Particles();
310 // Generate the vertex position used by all generators
312 if(fVertexSmear == kPerEvent) Vertex();
313 Bool_t primordialTrigger = kFALSE;
315 while(!primordialTrigger) {
318 AliRunLoader * runloader = gAlice->GetRunLoader();
320 if (runloader->Stack())
321 runloader->Stack()->Reset();
323 // Loop over generators and generate events
327 while((entry = (AliGenCocktailEntry*)next())) {
328 gen = entry->Generator();
329 gen->SetVertex(fVertex.At(0), fVertex.At(1), fVertex.At(2));
330 if ( (npart = gRandom->Poisson(entry->Rate())) >0 ) {
332 if (igen ==1) entry->SetFirst(0);
333 else entry->SetFirst((partArray->GetEntriesFast())+1);
334 gen->SetNumberParticles(npart);
336 entry->SetLast(partArray->GetEntriesFast());
342 // Tesitng primordial trigger : Muon pair in the MUON spectrometer acceptance 171,178 and pTCut
345 Int_t numberOfMuons=0;
346 // printf(">>>fNGenerated is %d\n",fNGenerated);
347 for(iPart=0; iPart<partArray->GetEntriesFast(); iPart++){
348 // gAlice->GetMCApp()->Particle(iPart)->Print();
349 if ( (TMath::Abs(gAlice->GetMCApp()->Particle(iPart)->GetPdgCode())==13) &&
350 (gAlice->GetMCApp()->Particle(iPart)->Theta()*180./TMath::Pi()>fMuonThetaMinCut) &&
351 (gAlice->GetMCApp()->Particle(iPart)->Theta()*180./TMath::Pi()<fMuonThetaMaxCut) &&
352 (gAlice->GetMCApp()->Particle(iPart)->Pt()>fMuonPtCut) ) {
353 gAlice->GetMCApp()->Particle(iPart)->SetProductionVertex(fVertex.At(0), fVertex.At(1), fVertex.At(2), 0.);
357 // printf(">>> Number of Muons is %d \n", numberOfMuons);
358 if (numberOfMuons >= fMuonMultiplicity ) primordialTrigger = kTRUE;
360 //printf(">>> Trigger Accepted!!! \n");
362 // Float_t Ratio = (Float_t) fNSucceded/fNGenerated;
363 // printf("Generated %d, Succeded %d and Ratio %f\n",fNGenerated, fNSucceded,Ratio);