fh1Centrality(0x0),
fh1DeltapT(0x0),
fh1Rho(0x0),
+ fh1RhoSigma(0x0),
fh1PtRandCone(0x0),
fh1efficiencyPt(0x0),
fh2efficiencyPhi(0x0),
fh1Centrality(0x0),
fh1DeltapT(0x0),
fh1Rho(0x0),
+ fh1RhoSigma(0x0),
fh1PtRandCone(0x0),
fh1efficiencyPt(0x0),
fh2efficiencyPhi(0x0),
fh1DeltapT = new TH1F("fh1DeltapT","DeltapT",100,-50,50);
fh1Rho = new TH1F("fh1Rho","Rho",100,0,200);
+ fh1RhoSigma = new TH1F("fh1RhoSigma","SigmaRho",40,0,40);
fh1PtRandCone = new TH1F("fh1PtRandCone","pt",100,0,200);
const Int_t saveLevel = 3; // large save level more histos
fHistList->Add(fh1ZPhySel);
fHistList->Add(fh1DeltapT);
fHistList->Add(fh1Rho);
+ fHistList->Add(fh1RhoSigma);
fHistList->Add(fh1PtRandCone);
}
Double_t sigma1=0.;
Double_t meanarea1=0.;
clustSeq.get_median_rho_and_sigma(jets2, range, true, bkg1, sigma1, meanarea1, true);
+ fh1RhoSigma->Fill(sigma1);// fluctuation of the background
background = bkg1;//sets background variable of the task to the correct value
TH1F* fh1Centrality; // ! centrality of selected events
TH1F* fh1DeltapT; // pT of random Cone - background energy
TH1F* fh1Rho; //background rho
+ TH1F* fh1RhoSigma; //fluctuation of the background
TH1F* fh1PtRandCone; //pT of random Cone
TH1F* fh1efficiencyPt; //here efficiency is stored