#ifndef ALIGENEMLIB_H #define ALIGENEMLIB_H /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * * See cxx source for full Copyright notice */ /* $Id: AliGenEMlib.h 30052 2008-11-25 14:54:18Z morsch $ */ ///////////////////////////////////////////////////////////////////////////// // // // Implementation of AliGenEMlib for electron, di-electron, and photon // // cocktail calculations. // // It is based on AliGenGSIlib. // // // // Responsible: R.Averbeck@gsi.de // // // ///////////////////////////////////////////////////////////////////////////// #include "AliGenLib.h" class TRandom; class AliGenEMlib :public AliGenLib { public: enum Particle_t{kPizero=0x0, kEta=0x1, kRho0=0x2, kOmega=0x3, kEtaprime=0x4, kPhi=0x5, kJpsi=0x6, kSigma0=0x7, kK0s=0x8, kDeltaPlPl=0x9, kDeltaPl=0xA, kDeltaMi=0xB, kDeltaZero=0xC, kRhoPl = 0xD, kRhoMi = 0xE, kK0star = 0xF, kDirectRealGamma=0x10, kDirectVirtGamma=0x11 }; enum Centrality_t{ kpp = 0x0, k0005=0x1, k0510=0x2, k1020=0x3, k2030=0x4, k3040=0x5, k4050=0x6, k5060=0x7, k0010=0x8, k2040=0x9, k4060=0xA, k6080=0xB, k0020=0xC, k0040=0xD, k2080=0xE, k4080=0xF, kCentralities=0x10}; enum CollisionSystem_t {kpp900GeV=0x0, kpp2760GeV=0x1, kpp7TeV=0x2, kpPb=0x3, kPbPb=0x4}; enum PtParamSetPi0_t{kPizeroParam=0x0, kPizeroParamlow=0x1, kPizeroParamhigh=0x2, kPichargedParam=0x3, kPichargedParamlow=0x4, kPichargedParamhigh=0x5, kPizeroParamAlter=0x6, kPizeroParamAlterlow=0x7, kPizeroParamAlterhigh=0x8, kNPi0Param=0x9 }; enum PtParamSetEta_t{kEtaParampp=0x0, kEtaParampplow=0x1, kEtaParampphigh=0x2, kEtaParamRatiopp=0x3, kEtaParamRatiopplow=0x4, kEtaParamRatiopphigh=0x5, kEtaParamPbPb=0x6, kEtaParamPPb=0x7 }; enum PtParamSetOmega_t{kOmegaParampp=0x0, kOmegaParampplow=0x1, kOmegaParampphigh=0x2, kOmegaParamRatiopp=0x3, kOmegaParamRatiopplow=0x4, kOmegaParamRatiopphigh=0x5, kOmegaParamPbPb=0x6, kOmegaParamPPb=0x7 }; enum PtParamSetPhi_t{kPhiParampp=0x0, kPhiParampplow=0x1, kPhiParampphigh=0x2, kPhiParamPbPb=0x3, kPhiParamPPb=0x4 }; enum v2Sys_t{kLoV2Sys=-1, kNoV2Sys=0, kUpV2Sys=+1}; AliGenEMlib() { } ; static void SelectParams( Int_t collisionSystem, Int_t ptSelectPi0, Int_t ptSelectEta, Int_t ptSelectOmega, Int_t ptSelectPhi, Int_t centSelect=kpp, Int_t v2sys=kNoV2Sys) { fgSelectedCollisionsSystem = collisionSystem; fgSelectedPtParamPi0=ptSelectPi0; fgSelectedPtParamEta=ptSelectEta; fgSelectedPtParamOmega=ptSelectOmega; fgSelectedPtParamPhi=ptSelectPhi; fgSelectedCentrality=centSelect; fgSelectedV2Systematic=v2sys; } GenFunc GetPt(Int_t param, const char * tname=0) const; GenFunc GetY(Int_t param, const char * tname=0) const; GenFuncIp GetIp(Int_t param, const char * tname=0) const; GenFunc GetV2(Int_t param, const char * tname=0) const; //private: // General functions // General functions static Int_t fgSelectedCollisionsSystem; // selected pT parameter static Int_t fgSelectedPtParamPi0; // selected pT parameter static Int_t fgSelectedPtParamEta; // selected pT parameter static Int_t fgSelectedPtParamOmega; // selected pT parameter static Int_t fgSelectedPtParamPhi; // selected pT parameter static Int_t fgSelectedCentrality; // selected Centrality static Int_t fgSelectedV2Systematic; // selected v2 systematics, usefully values: -1,0,1 static Double_t PtModifiedHagedornThermal(Double_t pt, Double_t c, Double_t p0, Double_t p1, Double_t n, Double_t cT, Double_t T); static Double_t PtModifiedHagedornExp(Double_t pt, Double_t c, Double_t p0, Double_t p1, Double_t p2, Double_t n); static Double_t PtModifiedHagedornExp2(Double_t pt, Double_t c, Double_t a, Double_t b, Double_t p0, Double_t p1, Double_t d, Double_t n); static Double_t PtTsallis(Double_t pt, Double_t m, Double_t c, Double_t T, Double_t n); static Double_t PtParticleRatiopp(Double_t pt, Double_t m1, Double_t m2, Double_t c1, Double_t c2, Double_t T1, Double_t T2, Double_t n); static Double_t PtXQCD( Double_t pt, Double_t a, Double_t b, Double_t c, Double_t d, Double_t e, Double_t f); static Double_t PtModTsallis( Double_t pt, Double_t a, Double_t b, Double_t c, Double_t d, Double_t e, Double_t f, Double_t g, Double_t mass); static Double_t PtQCD( Double_t pt, Double_t a, Double_t b, Double_t c, Double_t d, Double_t e); static Double_t PtExponential(const Double_t *pt, const Double_t *param); static Double_t PtModifiedHagedornPowerlaw(const Double_t *pt, const Double_t *param); static Double_t PtDoublePowerlaw(const Double_t *pt, const Double_t *param); static Double_t IntegratedKrollWada(const Double_t *mh, const Double_t *); // direct gamma static Double_t PtPromptRealGamma(const Double_t *px, const Double_t *dummy); static Double_t PtPromptVirtGamma(const Double_t *px, const Double_t *dummy); static Double_t PtThermalRealGamma(const Double_t *px, const Double_t *dummy); static Double_t PtThermalVirtGamma(const Double_t *px, const Double_t *dummy); static Int_t IpDirectRealGamma(TRandom *ran); static Double_t PtDirectRealGamma(const Double_t *px, const Double_t *dummy); static Double_t YDirectRealGamma(const Double_t *py, const Double_t *dummy); static Double_t V2DirectRealGamma(const Double_t *px, const Double_t *dummy); static Int_t IpDirectVirtGamma(TRandom *ran); static Double_t PtDirectVirtGamma(const Double_t *px, const Double_t *dummy); static Double_t YDirectVirtGamma(const Double_t *py, const Double_t *dummy); static Double_t V2DirectVirtGamma(const Double_t *px, const Double_t *dummy); // Pizero static Int_t IpPizero(TRandom *ran); static Double_t PtPizero(const Double_t *px, const Double_t *dummy); static Double_t YPizero(const Double_t *py, const Double_t *dummy); static Double_t V2Pizero(const Double_t *px, const Double_t *dummy); // Eta static Int_t IpEta(TRandom *ran); static Double_t PtEta(const Double_t *px, const Double_t *dummy); static Double_t YEta(const Double_t *py, const Double_t *dummy); static Double_t V2Eta(const Double_t *px, const Double_t *dummy); // Rho static Int_t IpRho0(TRandom *ran); static Double_t PtRho0(const Double_t *px, const Double_t *dummy); static Double_t YRho0(const Double_t *py, const Double_t *dummy); static Double_t V2Rho0(const Double_t *py, const Double_t *dummy); // Omega static Int_t IpOmega(TRandom *ran); static Double_t PtOmega(const Double_t *px, const Double_t *dummy); static Double_t YOmega(const Double_t *py, const Double_t *dummy); static Double_t V2Omega(const Double_t *py, const Double_t *dummy); // Etaprime static Int_t IpEtaprime(TRandom *ran); static Double_t PtEtaprime(const Double_t *px, const Double_t *dummy); static Double_t YEtaprime(const Double_t *py, const Double_t *dummy); static Double_t V2Etaprime(const Double_t *py, const Double_t *dummy); // Phi static Int_t IpPhi(TRandom *ran); static Double_t PtPhi(const Double_t *px, const Double_t *dummy); static Double_t YPhi(const Double_t *py, const Double_t *dummy); static Double_t V2Phi(const Double_t *py, const Double_t *dummy); // Jpsi static Int_t IpJpsi(TRandom *ran); static Double_t PtJpsi(const Double_t *px, const Double_t *dummy); static Double_t YJpsi(const Double_t *py, const Double_t *dummy); static Double_t V2Jpsi(const Double_t *py, const Double_t *dummy); // Sigma static Int_t IpSigma(TRandom *ran); static Double_t PtSigma( const Double_t *px, const Double_t *dummy ); static Double_t YSigma(const Double_t *py, const Double_t *dummy); static Double_t V2Sigma0( const Double_t *px, const Double_t *dummy ); // K0short static Int_t IpK0short(TRandom *ran); static Double_t PtK0short( const Double_t *px, const Double_t *dummy ); static Double_t YK0short(const Double_t *py, const Double_t *dummy); static Double_t V2K0sshort( const Double_t *px, const Double_t *dummy ); // Delta++ static Int_t IpDeltaPlPl(TRandom *ran); static Double_t PtDeltaPlPl( const Double_t *px, const Double_t *dummy ); static Double_t YDeltaPlPl(const Double_t *py, const Double_t *dummy); static Double_t V2DeltaPlPl( const Double_t *px, const Double_t *dummy ); // Delta+ static Int_t IpDeltaPl(TRandom *ran); static Double_t PtDeltaPl( const Double_t *px, const Double_t *dummy ); static Double_t YDeltaPl(const Double_t *py, const Double_t *dummy); static Double_t V2DeltaPl( const Double_t *px, const Double_t *dummy ); // Delta- static Int_t IpDeltaMi(TRandom *ran); static Double_t PtDeltaMi( const Double_t *px, const Double_t *dummy ); static Double_t YDeltaMi(const Double_t *py, const Double_t *dummy); static Double_t V2DeltaMi( const Double_t *px, const Double_t *dummy ); // Delta0 static Int_t IpDeltaZero(TRandom *ran); static Double_t PtDeltaZero( const Double_t *px, const Double_t *dummy ); static Double_t YDeltaZero(const Double_t *py, const Double_t *dummy); static Double_t V2DeltaZero( const Double_t *px, const Double_t *dummy ); // Rho+ static Int_t IpRhoPl(TRandom *ran); static Double_t PtRhoPl( const Double_t *px, const Double_t *dummy ); static Double_t YRhoPl(const Double_t *py, const Double_t *dummy); static Double_t V2RhoPl( const Double_t *px, const Double_t *dummy ); // Rho- static Int_t IpRhoMi(TRandom *ran); static Double_t PtRhoMi( const Double_t *px, const Double_t *dummy ); static Double_t YRhoMi(const Double_t *py, const Double_t *dummy); static Double_t V2RhoMi( const Double_t *px, const Double_t *dummy ); // K0* static Int_t IpK0star(TRandom *ran); static Double_t PtK0star( const Double_t *px, const Double_t *dummy ); static Double_t YK0star(const Double_t *py, const Double_t *dummy); static Double_t V2K0star( const Double_t *px, const Double_t *dummy ); // General //static Double_t PtFlat(const Double_t *px, const Double_t *dummy); static Double_t YFlat(Double_t y); static Double_t MtScal(Double_t pt, Int_t np); static Double_t V2Param(const Double_t *px, const Double_t *param); static Double_t V2Flat(const Double_t *px, const Double_t *param); static Double_t KEtScal(Double_t pt, Int_t np); static Double_t GetTAA(Int_t cent); static Double_t CrossOverLc(double a, double b, double x); static Double_t CrossOverRc(double a, double b, double x); static const Double_t fgkPtParam[kCentralities][10]; // parameters of pi pt spectrum static const Double_t fgkModTsallisParamPi0PbPb[kCentralities][7]; // parameters for ModTsallis function for pi0 in PbPb static const Double_t fgkModTsallisParamPiChargedPbPb[kCentralities][7]; // parameters for ModTsallis function for pi+- in PbPb static const Double_t fgkV2param[kCentralities][16]; // parameters of pi v2 static const Double_t fgkRawPtOfV2Param[kCentralities][10]; // parameters of the raw pt spectrum of v2 analysys static const Double_t fgkThermPtParam[kCentralities][2]; // parameters of thermal gamma pt static const Double_t fgkHM[16]; // particle masses static const Double_t fgkMtFactor[3][16]; // mt scaling factor static const Double_t fgkParamSetPi07TeV[kNPi0Param][7]; // parameters for pi0 in 7 TeV static const Double_t fgkParamSetPi02760GeV[kNPi0Param][7]; // parameters for pi0 in 2.76 TeV static const Double_t fgkParamSetPi0900GeV[kNPi0Param][7]; // parameters for pi0 in 0.9 TeV ClassDef(AliGenEMlib,1) }; #endif