void SetCMSEnergy(Int_t einc) { fCMSEnergy = einc; }
void SetSigmaReaction(Double_t sig) { fSigmaReaction = sig; }
void SetSigmaJPsi(Double_t sig) { fSigmaJPsi = sig; }
+ void SetSigmaChic1(Double_t sig) { fSigmaChic1 = sig; }
+ void SetSigmaChic2(Double_t sig) { fSigmaChic2 = sig; }
void SetSigmaPsiP(Double_t sig) { fSigmaPsiP = sig; }
void SetSigmaUpsilon(Double_t sig) { fSigmaUpsilon = sig; }
void SetSigmaUpsilonP(Double_t sig) { fSigmaUpsilonP = sig; }
Float_t fMuonOriginCut; //use only muons whose "part->Vz()" value is larger than fMuonOrigin
Int_t fNSucceded;// Number of Succes in the (di)-muon generation in the acceptance
Int_t fNGenerated;// Number of generated cocktails
- Double_t fJpsiPol, fPsiPPol, fUpsPol, fUpsPPol, fUpsPPPol;//Resonances polarization parameters
+ Double_t fJpsiPol, fChic1Pol, fChic2Pol, fPsiPPol, fUpsPol, fUpsPPol, fUpsPPPol;//Resonances polarization parameters
Int_t fPolFrame;//Resonances polarization frame (Collins-Soper / Helicity)
Int_t fCMSEnergy; // CMS beam energy
Double_t fSigmaReaction; // cross-section pp
Double_t fSigmaJPsi; // cross-section JPsi resonance
+ Double_t fSigmaChic1; // cross-section Chic1 resonance
+ Double_t fSigmaChic2; // cross-section Chic2 resonance
Double_t fSigmaPsiP; // cross-section Psi-prime resonance
Double_t fSigmaUpsilon; // cross-section Upsilon resonance
Double_t fSigmaUpsilonP; // cross-section Upsilon-prime resonance
Double_t fSigmaBBbar; // cross-section correlated beauty
Bool_t fSigmaSilent; // hide values of cross-sections in output
- ClassDef(AliGenMUONCocktailpp,3) // cocktail for physics in the Alice
+ ClassDef(AliGenMUONCocktailpp,4) // cocktail for physics in the Alice
};
#endif