#ifndef AliD0toKpi_H #define AliD0toKpi_H /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * * See cxx source for full Copyright notice */ //------------------------------------------------------------------------- // Class AliD0toKpi // Reconstructed D0 -> K^- pi^+ class // // Note: the two decay tracks are labelled: 0 (positive track) // 1 (negative track) // // Origin: A. Dainese andrea.dainese@lnl.infn.it //------------------------------------------------------------------------- #include #include //---------------------------------------------------------------------------- // Some constants (masses + parameterized TOF PID) // // particle masses const Double_t kMD0 = 1.8645; // D0 mass const Double_t kMK = 0.49368; // K+ mass const Double_t kMPi = 0.13957; // pi+ mass // --- TOF tagging probabilities --- // central HIJING // B = 0.4 T // tracking errors in TPC included // With TRD // // *** Pb-Pb dNch/dy=6000 *** // // PIONS const Int_t kPiBinsPbPb = 10; const Double_t kPiBinWidthPbPb = 0.250; const Double_t kPiTagPiPbPb[kPiBinsPbPb] = {0.211421,0.652184,0.624421,0.614727,0.610777,0.628015,0.631520,0.630324,0.637551,0.575235}; const Double_t kPiTagNidPbPb[kPiBinsPbPb] = {0.788579,0.347816,0.375579,0.385273,0.389223,0.371985,0.368480,0.369676,0.362449,0.424765}; // KAONS const Int_t kKBinsPbPb = 10; const Double_t kKBinWidthPbPb = 0.250; const Double_t kKTagKPbPb[kKBinsPbPb] = {0.000000,0.101255,0.397662,0.467586,0.517008,0.555023,0.584185,0.519029,0.464117,0.247308}; const Double_t kKTagPiPbPb[kKBinsPbPb] = {0.102049,0.289930,0.101930,0.057771,0.040286,0.028567,0.053108,0.094369,0.066302,0.247308}; const Double_t kKTagNidPbPb[kKBinsPbPb] = {0.897951,0.608815,0.500408,0.474643,0.442705,0.416410,0.362707,0.386603,0.469580,0.505383}; // PROTONS const Int_t kPBinsPbPb = 9; const Double_t kPBinWidthPbPb = 0.500; const Double_t kPTagPPbPb[kPBinsPbPb] = {0.017940,0.350681,0.535286,0.583264,0.562935,0.560524,0.545992,0.598060,0.351245}; const Double_t kPTagPiPbPb[kPBinsPbPb] = {0.195955,0.094949,0.039962,0.026039,0.007556,0.016986,0.030333,0.000000,0.000000}; const Double_t kPTagNidPbPb[kPBinsPbPb] = {0.786105,0.554370,0.424751,0.390697,0.429508,0.422491,0.423675,0.401940,0.648755}; // // pp PYTHIA // // *** cuts for pp *** // // PIONS const Int_t kPiBinsPP = 10; const Double_t kPiBinWidthPP = 0.250; const Double_t kPiTagPiPP[kPiBinsPP] = {0.194528,0.447097,0.603364,0.646413,0.647125,0.669157,0.688139,0.682564,0.689910,0.665710}; const Double_t kPiTagNidPP[kPiBinsPP] = {0.805472,0.552903,0.396636,0.353587,0.352875,0.330843,0.311861,0.317436,0.310090,0.334290}; // KAONS const Int_t kKBinsPP = 10; const Double_t kKBinWidthPP = 0.250; const Double_t kKTagKPP[kKBinsPP] = {0.000000,0.173393,0.439690,0.519423,0.587025,0.605372,0.586021,0.650139,0.444444,0.299363}; const Double_t kKTagPiPP[kKBinsPP] = {0.000000,0.001495,0.000000,-0.000000,-0.000000,0.000000,0.032258,0.060572,0.101449,0.242038}; const Double_t kKTagNidPP[kKBinsPP] = {1.000000,0.825112,0.560310,0.480577,0.412975,0.394628,0.381720,0.289289,0.454106,0.458599}; // PROTONS const Int_t kPBinsPP = 9; const Double_t kPBinWidthPP = 0.500; const Double_t kPTagPPP[kPBinsPP] = {0.029404,0.438640,0.613710,0.665152,0.634961,0.657711,0.703704,0.685714,0.235294}; const Double_t kPTagPiPP[kPBinsPP] = {0.000000,0.000000,0.000000,-0.000000,0.000000,0.000000,-0.000000,0.014286,-0.000000}; const Double_t kPTagNidPP[kPBinsPP] = {0.970596,0.561360,0.386290,0.334848,0.365039,0.342289,0.296296,0.300000,0.764706}; //----------------------------------------------------------------------------- class AliD0toKpi : public TObject { public: // AliD0toKpi(); AliD0toKpi(Int_t ev,Int_t trkNum[2], Double_t v1[3],Double_t v2[3],Double_t dca, Double_t mom[6],Double_t d0[2]); virtual ~AliD0toKpi(); AliD0toKpi(const AliD0toKpi& d0toKpi); Double_t Alpha() const { return (Ql(0)-Ql(1))/(Ql(0)+Ql(1)); } void ApplyPID(TString pidScheme="TOFparamPbPb"); Double_t ChildrenRelAngle() const; void ComputeWgts(); void CorrectWgt4BR(Double_t factor); Double_t CosPointing() const; Double_t CosPointingXY() const; void CosThetaStar(Double_t &ctsD0,Double_t &ctsD0bar) const; Double_t Ct() const {return Length()*kMD0/P();} Double_t Energy() const { return TMath::Sqrt(P()*P()+kMD0*kMD0); } Double_t Eta() const; Double_t EtaChild(Int_t child) const; Int_t EventNo() const {return TMath::Abs(fEvent);} Double_t GetDCA() const { return 10000.*fDCA; } Int_t GetTrkNum(Int_t child) const { return fTrkNum[child]; } Double_t Getd0Child(Int_t child) const { return fd0[child]; } Int_t GetPdgChild(Int_t child) const { return fPdg[child]; } Int_t GetPdgMum(Int_t child) const {return fMum[child]; } void GetWgts(Double_t &WgtD0,Double_t &WgtD0bar,TString sample) const; void GetPrimaryVtx(Double_t vtx[3]) const { vtx[0]=fV1x; vtx[1]=fV1y; vtx[2]=fV1z; } void GetSecondaryVtx(Double_t vtx[3]) const { vtx[0]=fV2x; vtx[1]=fV2y; vtx[2]=fV2z; } Double_t ImpPar() const; void InvMass(Double_t &mD0,Double_t &mD0bar) const; Bool_t IsSignal() const { if(fSignal) return kTRUE; return kFALSE; } Double_t Length() const { return TMath::Sqrt((fV1x-fV2x)*(fV1x-fV2x) +(fV1y-fV2y)*(fV1y-fV2y)+(fV1z-fV2z)*(fV1z-fV2z)); } Double_t P() const { return TMath::Sqrt(Pt()*Pt()+Pz()*Pz()); } Double_t PChild(Int_t child) const { return TMath::Sqrt(fPx[child]*fPx[child]+fPy[child]*fPy[child]+fPz[child]*fPz[child]); } Double_t ProdImpParams() const { return fd0[0]*fd0[1]; } Double_t Pt() const { return TMath::Sqrt(Px()*Px()+Py()*Py()); } Double_t PtChild(Int_t child) const { return TMath::Sqrt(fPx[child]*fPx[child]+fPy[child]*fPy[child]); } Double_t Px() const { return (fPx[0]+fPx[1]); } Double_t Py() const { return (fPy[0]+fPy[1]); } Double_t Pz() const { return (fPz[0]+fPz[1]); } Double_t Ql(Int_t child) const; Double_t Qt() const; Double_t Rapidity() const { return 0.5*TMath::Log((Energy()+Pz())/(Energy()-Pz()+1.e-13)); } Bool_t Select(const Double_t* cuts,Int_t& okD0,Int_t& okD0bar) const; void SetPrimaryVtx(Double_t vtx[3]) { fV1x=vtx[0]; fV1y=vtx[1]; fV1z=vtx[2]; } void SetSignal() { fSignal = kTRUE; } void SetTOFmasses(Double_t mass[2]) { fTOFmass[0]=mass[0]; fTOFmass[1]=mass[1]; } void SetPIDresponse(Double_t resp0[5],Double_t resp1[5]); void SetPdgCodes(Int_t pdg[2]) {fPdg[0]=pdg[0];fPdg[1]=pdg[1]; } void SetMumPdgCodes(Int_t mum[2]) {fMum[0]=mum[0];fMum[1]=mum[1]; } Double_t LinearInterpolation(Double_t p,Int_t nBins,Double_t Bin, const Double_t *values) const; // private: // Bool_t fSignal; // TRUE if signal, FALSE if background (for simulation) Int_t fEvent; // number of the event this D0 comes from // -1 if the D0 comes from ev. mixing Int_t fTrkNum[2]; // numbers of the two decay tracks Double_t fV1x; // X-position of the primary vertex of the event Double_t fV1y; // Y-position of the primary vertex of the event Double_t fV1z; // Z-position of the primary vertex of the event Double_t fV2x; // X-position of the reconstructed secondary vertex Double_t fV2y; // Y-position of the reconstructed secondary vertex Double_t fV2z; // Z-position of the reconstructed secondary vertex Double_t fDCA; // DCA of the two tracks Double_t fPx[2]; // X,Y,Z Double_t fPy[2]; // momenta of the two tracks Double_t fPz[2]; // at the reconstructed vertex Double_t fd0[2]; // impact parameters in the bending plane Int_t fPdg[2]; // PDG codes of the two tracks (for sim.) Int_t fMum[2]; // PDG codes of the mothers (for sim.) Double_t fTagPi[2]; // probability to be tagged as pion Double_t fTagKa[2]; // probability to be tagged as kaon Double_t fTagPr[2]; // probability to be tagged as proton Double_t fTagNid[2]; // probability to be tagged as "non-identified" Double_t fPIDrespEl[2]; // det. response to be electron Double_t fPIDrespMu[2]; // det. response to be muon Double_t fPIDrespPi[2]; // det. response to be pion Double_t fPIDrespKa[2]; // det. response to be kaon Double_t fPIDrespPr[2]; // det. response to be proton Double_t fTOFmass[2]; // mass estimated by the TOF (-1000. if track not reached TOF) Double_t fWgtAD0,fWgtAD0bar; // weights for the 3 samples Double_t fWgtBD0,fWgtBD0bar; // weights for the 3 samples Double_t fWgtCD0,fWgtCD0bar; // A: (K,Pi)+(K,?) B: (?,Pi) C: (?,?) Double_t fWgtDD0,fWgtDD0bar; // D: all other pairs ClassDef(AliD0toKpi,1) // Reconstructed D0 candidate class }; #endif