void SetPi0AODBranchName(TString n) { fPi0AODBranchName = n ; }
- void SetNTriggerPtBins(Int_t n) ;
- void SetTriggerPtBinLimit(Int_t ibin, Float_t pt) ;
+ void SetNAssocPtBins(Int_t n) ;
+ void SetAssocPtBinLimit(Int_t ibin, Float_t pt) ;
private:
Bool_t fMakeAbsoluteLeading ; // requesting absolute leading while it is cluster triggers
Int_t fLeadingTriggerIndex ; // Store here per event the trigger index, to avoid too many loops
- Int_t fNTriggerPtBins ; // Number of trigger bins under study
- Float_t fTriggerPtBinLimit[10] ; // Trigger pt limtis
+ Int_t fNAssocPtBins ; // Number of associated pT bins under study
+ Float_t fAssocPtBinLimit[10] ; // Associated pT under study
//Histograms
TH2F * fhPtHbpUeRightCharged ; //! Trigger particle -underlying charged hadron momentim HBP histogram
//for pout and kt extraction
- TH2F * fhPtTrigPout ; //! Pout =associated pt*sin(delta phi) distribution vs trigger pt vs associated pt
- TH2F * fhPtAssocDeltaPhi ; //! Pout =associated pt*sin(delta phi) distribution
+ TH2F * fhPtTrigPout ; //! Pout =associated pt*sin(delta phi) distribution vs trigger pt
TH2F * fhPtTrigCharged ; //! trigger and correlated particl pt, to be used for mean value for kt
//if different multiplicity analysis asked
- TH2F ** fhTrigDeltaPhiCharged ; //! differences of phi between trigger and charged hadrons
- TH2F ** fhTrigDeltaEtaCharged ; //! differences of eta between trigger and charged hadrons
- TH2F ** fhTrigCorr ; //! Trigger particle -charged hadron momentim imbalance histogram
- TH2F ** fhTrigUeCorr ; //! Trigger particle -UE charged hadron momentim imbalance histogram
+ TH2F ** fhTrigDeltaPhiCharged ; //![GetMultiBin()] differences of phi between trigger and charged hadrons
+ TH2F ** fhTrigDeltaEtaCharged ; //![GetMultiBin()] differences of eta between trigger and charged hadrons
+ TH2F ** fhTrigCorr ; //![GetMultiBin()] Trigger particle -charged hadron momentim imbalance histogram
+ TH2F ** fhTrigUeCorr ; //![GetMultiBin()] Trigger particle -UE charged hadron momentim imbalance histogram
- TH1F * fhTrigPt[10] ; //! add explanation
- TH1F * fhDphiTrigPtAssocPt[10]; //! add explanation
- TH1F * fhAssocPtBkg[10]; //! add explanation
- TH1F * fhXE[10] ; //! add explanation
+ TH2F * fhAssocPt ; //! Trigger pT vs associated pT
+ TH2F * fhAssocPtBkg; //! Trigger pT vs associated pT for background
+ TH2F ** fhDeltaPhiAssocPtBin; //![fNAssocPtBins] Trigger pT vs dPhi for different associated pt bins
+ TH2F ** fhDeltaPhiBradAssocPtBin; //![fNAssocPtBins] Trigger pT vs dPhi Brad (?) for different associated pt bins
+ TH2F ** fhXEAssocPtBin ; //![fNAssocPtBins] Trigger pT vs xE for different associated pt bins
//trigger-neutral histograms
TH2F * fhDeltaPhiDeltaEtaNeutral ; //! differences of eta and phi between trigger and neutral hadrons (pi0)
TH2F * fhMCPtAssocDeltaPhi ; //! Pout =associated pt*sin(delta phi) distribution
- ClassDef(AliAnaParticleHadronCorrelation,7)
+ ClassDef(AliAnaParticleHadronCorrelation,8)
} ;