1 #ifndef ALIGENMUONCOCKTAILPP_H
2 #define ALIGENMUONCOCKTAILPP_H
3 /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
4 * See cxx source for full Copyright notice */
6 #include "AliGenCocktail.h"
7 #include "AliDecayer.h"
9 class AliGenCocktailEntry;
11 class AliGenMUONCocktailpp : public AliGenCocktail
15 AliGenMUONCocktailpp();
16 virtual ~AliGenMUONCocktailpp();
18 virtual void CreateCocktail();
19 virtual void Generate();
20 Int_t GetNSucceded() const {return fNSucceded;}
21 Int_t GetNGenerated() const {return fNGenerated;}
22 Int_t GetMuonMultiplicity() const {return fMuonMultiplicity;}
23 Float_t GetMuonPtCut() const {return fMuonPtCut;}
24 Float_t GetMuonPCut() const {return fMuonPCut;}
25 Float_t GetMuonThetaMin() const {return fMuonThetaMinCut;}
26 Float_t GetMuonThetaMax() const {return fMuonThetaMaxCut;}
27 Float_t GetMuonOriginCut() const {return fMuonOriginCut;}
28 Float_t GetDecayModeResonance()const {return fDecayModeResonance;}
29 Float_t GetDecayModePythia() const {return fDecayModePythia;}
31 void SetMuonMultiplicity(Int_t MuonMultiplicity) { fMuonMultiplicity = MuonMultiplicity;}
32 void SetMuonPtCut(Float_t PtCut) { fMuonPtCut = PtCut;}
33 void SetMuonPCut(Float_t PCut) { fMuonPCut = PCut;}
34 void SetMuonOriginCut(Float_t originCut) { fMuonOriginCut = originCut;}
35 void SetMuonThetaRange(Float_t ThetaMin, Float_t ThetaMax){
36 fMuonThetaMinCut=ThetaMin;
37 fMuonThetaMaxCut=ThetaMax; }
38 void SetDecayer(AliDecayer* decayer){fDecayer = decayer;}
39 void SetDecayModeResonance(Decay_t decay){ fDecayModeResonance = decay;}
40 void SetDecayModePythia(Decay_t decay){ fDecayModePythia = decay;}
42 void SetSigmaJPsi(Double_t sig) { fSigmaJPsi = sig; }
43 void SetSigmaPsiP(Double_t sig) { fSigmaPsiP = sig; }
44 void SetSigmaUpsilon(Double_t sig) { fSigmaUpsilon = sig; }
45 void SetSigmaUpsilonP(Double_t sig) { fSigmaUpsilonP = sig; }
46 void SetSigmaUpsilonPP(Double_t sig) { fSigmaUpsilonPP = sig; }
47 void SetSigmaCCbar(Double_t sig) { fSigmaCCbar = sig; }
48 void SetSigmaBBbar(Double_t sig) { fSigmaBBbar = sig; }
50 void SetSigmaSilent() { fSigmaSilent = kTRUE; }
56 AliGenMUONCocktailpp(const AliGenMUONCocktailpp &cocktail);
57 AliGenMUONCocktailpp & operator=(const AliGenMUONCocktailpp &cocktail);
59 Decay_t fDecayModeResonance; //decay mode in which resonances are forced to decay, default: kAll
60 Decay_t fDecayModePythia; //decay mode in which particles in Pythia are forced to decay, default: kAll
61 Int_t fMuonMultiplicity; // Muon multiplicity for the primordial trigger
62 Float_t fMuonPtCut;// Transverse momentum cut for muons
63 Float_t fMuonPCut;// Momentum cut for muons
64 Float_t fMuonThetaMinCut;// Minimum theta cut for muons
65 Float_t fMuonThetaMaxCut; // Maximum theta cut for muons
66 Float_t fMuonOriginCut; //use only muons whose "part->Vz()" value is larger than fMuonOrigin
67 Int_t fNSucceded;// Number of Succes in the (di)-muon generation in the acceptance
68 Int_t fNGenerated;// Number of generated cocktails
69 Double_t fSigmaJPsi; // cross-section JPsi resonance
70 Double_t fSigmaPsiP; // cross-section Psi-prime resonance
71 Double_t fSigmaUpsilon; // cross-section Upsilon resonance
72 Double_t fSigmaUpsilonP; // cross-section Upsilon-prime resonance
73 Double_t fSigmaUpsilonPP; // cross-section Upsilon-double-prime resonance
74 Double_t fSigmaCCbar; // cross-section correlated charm
75 Double_t fSigmaBBbar; // cross-section correlated beauty
76 Bool_t fSigmaSilent; // hide values of cross-sections in output
78 ClassDef(AliGenMUONCocktailpp,3) // cocktail for physics in the Alice