/************************************************************************** * Copyright(c) 1998-2009, ALICE Experiment at CERN, All rights reserved. * * * * Author: The ALICE Off-line Project. * * Contributors are mentioned in the code where appropriate. * * * * Permission to use, copy, modify and distribute this software and its * * documentation strictly for non-commercial purposes is hereby granted * * without fee, provided that the above copyright notice appears in all * * copies and that both the copyright notice and this permission notice * * appear in the supporting documentation. The authors make no claims * * about the suitability of this software for any purpose. It is * * provided "as is" without express or implied warranty. * **************************************************************************/ /* $Id: $ */ ///////////////////////////////////////////////////////////// // class for systematic uncertainties on D meson -hadron correlation distribution // // Author: A. Rossi, andrea.rossi@cern.ch // // Responsible of the values set for the different mesons/datasets // D0: in pp (2010 min bias) Fabio Colamaria, fabio.colamaria@ba.infn.it ; p-Pb (2013 min bias): Fabio Colamaria, fabio.colamaria@ba.infn.it, Somnath Kar, somnath.kar@cern.ch // D*+: in pp 2010 min. bias and p-Pb 2013 min. bias Sandro Bjelogrlic, sandro.bjelogrlic@cern.ch // D+: in pp 2010 min. bias and p-Pb 2013 min. bias Jitendra Kumar, jitendra.kumar@cern.ch // ///////////////////////////////////////////////////////////// #include #include "AliHFDhadronCorrSystUnc.h" #include #include #include #include #include #include using std::cout; using std::endl; ClassImp(AliHFDhadronCorrSystUnc) AliHFDhadronCorrSystUnc::AliHFDhadronCorrSystUnc() : TNamed(), fmeson(), fstrmeson(), fstrptAss(), fstrptD(), fhDeltaPhiTemplate(), fhYieldExtraction(), fhBackSubtractionMin(), fhBackSubtractionMax(), fhBeautyFDmin(), fhBeautyFDmax(), fhMCclosureTestMin(), fhMCclosureTestMax(), fhMCcorrectionsMin(), fhMCcorrectionsMax(), fhMCDefficiencyMin(), fhMCDefficiencyMax(), fhSecContaminationMin(), fhSecContaminationMax(), fhTotalMin(), fhTotalMax(), fhTotalNonFDMin(), fhTotalNonFDMax(), fhTotalNonFlatDPhiMin(), fhTotalNonFlatDPhiMax(), fhtotFlatMin(), fhtotFlatMax(), fgrYieldUnc(), fgrBackSubUnc(), fgrMCcorrections(), fgrMCDefficiency(), fgrSecContamination(), fgrMCclosureTest(), fgrBeautyFD(), fgrYieldUncRel(), fgrBackSubUncRel(), fgrMCcorrectionsRel(), fgrMCDefficiencyRel(), fgrSecContaminationRel(), fgrMCclosureTestRel(), fgrBeautyFDRel(), fgrTotal(), fgrTotalRel(), fgrTotalNonFD(), fgrTotalNonFlatDPhi(), fgrTotalNonFlatDPhiRel(), fgrTotalFlatDPhi(), fgrTotalFlatDPhiRel() { // default constructor } AliHFDhadronCorrSystUnc::AliHFDhadronCorrSystUnc(const char* name) : TNamed(name,name), fmeson(), fstrmeson(), fstrptAss(), fstrptD(), fhDeltaPhiTemplate(), fhYieldExtraction(), fhBackSubtractionMin(), fhBackSubtractionMax(), fhBeautyFDmin(), fhBeautyFDmax(), fhMCclosureTestMin(), fhMCclosureTestMax(), fhMCcorrectionsMin(), fhMCcorrectionsMax(), fhMCDefficiencyMin(), fhMCDefficiencyMax(), fhSecContaminationMin(), fhSecContaminationMax(), fhTotalMin(), fhTotalMax(), fhTotalNonFDMin(), fhTotalNonFDMax(), fhTotalNonFlatDPhiMin(), fhTotalNonFlatDPhiMax(), fhtotFlatMin(), fhtotFlatMax(), fgrYieldUnc(), fgrBackSubUnc(), fgrMCcorrections(), fgrMCDefficiency(), fgrSecContamination(), fgrMCclosureTest(), fgrBeautyFD(), fgrYieldUncRel(), fgrBackSubUncRel(), fgrMCcorrectionsRel(), fgrMCDefficiencyRel(), fgrSecContaminationRel(), fgrMCclosureTestRel(), fgrBeautyFDRel(), fgrTotal(), fgrTotalRel(), fgrTotalNonFD(), fgrTotalNonFlatDPhi(), fgrTotalNonFlatDPhiRel(), fgrTotalFlatDPhi(), fgrTotalFlatDPhiRel() { // default constructor } AliHFDhadronCorrSystUnc::~AliHFDhadronCorrSystUnc(){ // destructor delete fhDeltaPhiTemplate; delete fhYieldExtraction; delete fhBackSubtractionMin; delete fhBackSubtractionMax; delete fhBeautyFDmin; delete fhBeautyFDmax; delete fhMCclosureTestMin; delete fhMCclosureTestMax; delete fhMCcorrectionsMin; delete fhMCcorrectionsMax; delete fhMCDefficiencyMin; delete fhMCDefficiencyMax; delete fhSecContaminationMin; delete fhSecContaminationMax; delete fhTotalMin; delete fhTotalMax; delete fhTotalNonFDMin; delete fhTotalNonFDMax; delete fhTotalNonFlatDPhiMin; delete fhTotalNonFlatDPhiMax; delete fhtotFlatMin; delete fhtotFlatMax; delete fgrYieldUnc; delete fgrBackSubUnc; delete fgrMCcorrections; delete fgrMCDefficiency; delete fgrSecContamination; delete fgrMCclosureTest; delete fgrBeautyFD; delete fgrYieldUncRel; delete fgrBackSubUncRel; delete fgrMCcorrectionsRel; delete fgrMCDefficiencyRel; delete fgrSecContaminationRel; delete fgrMCclosureTestRel; delete fgrBeautyFDRel; delete fgrTotal; delete fgrTotalRel; delete fgrTotalNonFD; delete fgrTotalNonFlatDPhi; delete fgrTotalNonFlatDPhiRel; delete fgrTotalFlatDPhi; delete fgrTotalFlatDPhiRel; } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPP2010DzeroLowPtAss03HP(){ Printf("Loading syst unc for D0 pp2010 3-5 0.3 thr"); fmeson=0; fstrmeson="Dzero"; fstrptAss="ptAsMore03"; fstrptD="Dpt3to5"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS ( associatate track efficiency): // -5% +10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.05); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.10); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.05); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.05); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.08); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ // x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPP2010DzeroMidPtAss03HP(){ Printf("Loading syst unc for D0 pp2010 5-8 0.3 thr"); fmeson=0; fstrmeson="Dzero"; fstrptAss="ptAsMore03"; fstrptD="Dpt5to8"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS: -5% +10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.05); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.10); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.05); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.05); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.08); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPP2010DzeroHighPtAss03HP(){ Printf("Loading syst unc for D0 pp2010 8-16 0.3 thr"); fmeson=0; fstrmeson="Dzero"; fstrptAss="ptAsMore03"; fstrptD="Dpt8to16"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS, -5% 10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.05); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.10); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.05); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.05); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.08); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } //-------------------------------------------------- void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPP2010DstarLowPtAss03HP(){ Printf("Loading syst unc for D*+ pp 2010, 30.3"); fmeson=1; fstrmeson="Dstar"; fstrptAss="ptAsMore03"; fstrptD="Dpt3to5"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS, -5% 10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.05); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.10); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.05); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.05); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.08); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPP2010DstarMidPtAss03HP(){ Printf("Loading syst unc for D*+ pp 2010, 50.3"); fmeson=1; fstrmeson="Dstar"; fstrptAss="ptAsMore03"; fstrptD="Dpt5to8"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS/ -5% 10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.05); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.10); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.05); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.05); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.08); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitEmptyHistosFromTemplate(){ if(!fhDeltaPhiTemplate){ Printf("Template histo not set, using standard binning"); fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPP2010DstarHighPtAss03HP(){ Printf("Loading syst unc for D*+ pp 2010, 80.3"); fmeson=1; fstrmeson="Dstar"; fstrptAss="ptAsMore03"; fstrptD="Dpt8to16"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS -5% +10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.05); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.10); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.05); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.05); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.08); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::SetHistoTemplate(TH1D *h,TString strname,Bool_t clone){ if(fhDeltaPhiTemplate)delete fhDeltaPhiTemplate; if(!clone){ fhDeltaPhiTemplate=h; } else{ if(strname.IsNull()){fhDeltaPhiTemplate=(TH1D*)h->Clone("fhDeltaPhiTemplate"); } else fhDeltaPhiTemplate=(TH1D*)h->Clone(strname.Data()); } } void AliHFDhadronCorrSystUnc::SetHistoYieldExtraction(TH1D *h,TString strname,Bool_t clone){ if(fhYieldExtraction)delete fhYieldExtraction; if(!clone){ fhYieldExtraction=h; } else{ if(strname.IsNull()){fhYieldExtraction=(TH1D*)h->Clone("fhYieldExtraction"); } else fhYieldExtraction=(TH1D*)h->Clone(strname.Data()); } } void AliHFDhadronCorrSystUnc::SetHistoBackSubtraction(TH1D *hMax,TString strname,Bool_t clone,TH1D *hMin){ if(!hMax){ Printf("No Input Histo for back uncertainty"); return; } if(fhBackSubtractionMax)delete fhBackSubtractionMax; if(!clone){ fhBackSubtractionMax=hMax; } else{ if(strname.IsNull()){fhBackSubtractionMax=(TH1D*)hMax->Clone("fhBackSubtractionMax"); } else fhBackSubtractionMax=(TH1D*)hMax->Clone(strname.Data()); } if(fhBackSubtractionMin)delete fhBackSubtractionMin; if(hMin){ if(!clone){ fhBackSubtractionMin=hMin; } else{ if(strname.IsNull()){fhBackSubtractionMin=(TH1D*)hMin->Clone("fhBackSubtractionMin"); } else fhBackSubtractionMin=(TH1D*)hMin->Clone(strname.Data()); } } else{ if(strname.IsNull()){ fhBackSubtractionMin=(TH1D*)hMin->Clone("fhBackSubtractionMin"); } else fhBackSubtractionMin=(TH1D*)hMin->Clone(strname.Data()); for(Int_t k=0;k<=fhBackSubtractionMin->GetNbinsX();k++){ fhBackSubtractionMin->SetBinContent(k,-1.*fhBackSubtractionMin->GetBinContent(k)); } } } void AliHFDhadronCorrSystUnc::SetHistoMCclosureTestMax(TH1D *h,TString strname,Bool_t clone){ if(fhMCclosureTestMax)delete fhMCclosureTestMax; if(!clone){ fhMCclosureTestMax=h; } else{ if(strname.IsNull()){fhMCclosureTestMax=(TH1D*)h->Clone("fhMCclosureTestMax"); } else fhMCclosureTestMax=(TH1D*)h->Clone(strname.Data()); } } void AliHFDhadronCorrSystUnc::SetHistoMCclosureTestMin(TH1D *h,TString strname,Bool_t clone){ if(fhMCclosureTestMin)delete fhMCclosureTestMin; if(!clone){ fhMCclosureTestMin=h; } else{ if(strname.IsNull()){fhMCclosureTestMin=(TH1D*)h->Clone("fhMCclosureTestMin"); } else fhMCclosureTestMin=(TH1D*)h->Clone(strname.Data()); } } void AliHFDhadronCorrSystUnc::SetHistoMCcorrectionsMin(TH1D *h,TString strname,Bool_t clone){ if(fhMCcorrectionsMin)delete fhMCcorrectionsMin; if(!clone){ fhMCcorrectionsMin=h; } else{ if(strname.IsNull()){fhMCcorrectionsMin=(TH1D*)h->Clone("fhMCcorrectionsMin"); } else fhMCcorrectionsMin=(TH1D*)h->Clone(strname.Data()); } } void AliHFDhadronCorrSystUnc::SetHistoMCcorrectionsMax(TH1D *h,TString strname,Bool_t clone){ if(fhMCcorrectionsMax)delete fhMCcorrectionsMax; if(!clone){ fhMCcorrectionsMax=h; } else{ if(strname.IsNull()){fhMCcorrectionsMax=(TH1D*)h->Clone("fhMCcorrectionsMax"); } else fhMCcorrectionsMax=(TH1D*)h->Clone(strname.Data()); } } void AliHFDhadronCorrSystUnc::SetHistoMCDefficiencyMin(TH1D *h,TString strname,Bool_t clone){ if(fhMCDefficiencyMin)delete fhMCDefficiencyMin; if(!clone){ fhMCDefficiencyMin=h; } else{ if(strname.IsNull()){fhMCDefficiencyMin=(TH1D*)h->Clone("fhMCDefficiencyMin"); } else fhMCDefficiencyMin=(TH1D*)h->Clone(strname.Data()); } } void AliHFDhadronCorrSystUnc::SetHistoMCDefficiencyMax(TH1D *h,TString strname,Bool_t clone){ if(fhMCDefficiencyMax)delete fhMCDefficiencyMax; if(!clone){ fhMCDefficiencyMax=h; } else{ if(strname.IsNull()){fhMCDefficiencyMax=(TH1D*)h->Clone("fhMCDefficiencyMax"); } else fhMCDefficiencyMax=(TH1D*)h->Clone(strname.Data()); } } void AliHFDhadronCorrSystUnc::SetHistoSecContaminationMin(TH1D *h,TString strname,Bool_t clone){ if(fhSecContaminationMin)delete fhSecContaminationMin; if(!clone){ fhSecContaminationMin=h; } else{ if(strname.IsNull()){fhSecContaminationMin=(TH1D*)h->Clone("fhSecContaminationMin"); } else fhSecContaminationMin=(TH1D*)h->Clone(strname.Data()); } } void AliHFDhadronCorrSystUnc::SetHistoSecContaminationMax(TH1D *h,TString strname,Bool_t clone){ if(fhSecContaminationMax)delete fhSecContaminationMax; if(!clone){ fhSecContaminationMax=h; } else{ if(strname.IsNull()){fhSecContaminationMax=(TH1D*)h->Clone("fhSecContaminationMax"); } else fhSecContaminationMax=(TH1D*)h->Clone(strname.Data()); } } void AliHFDhadronCorrSystUnc::SetHistoBeautyFDmin(TH1D *h,TString strname,Bool_t clone){ if(fhBeautyFDmin)delete fhBeautyFDmin; if(!clone){ fhBeautyFDmin=h; } else{ if(strname.IsNull()){fhBeautyFDmin=(TH1D*)h->Clone("fhBeautyFDmin"); } else fhBeautyFDmin=(TH1D*)h->Clone(strname.Data()); } } void AliHFDhadronCorrSystUnc::SetHistoBeautyFDmax(TH1D *h,TString strname,Bool_t clone){ if(fhBeautyFDmax)delete fhBeautyFDmax; if(!clone){ fhBeautyFDmax=h; } else{ if(strname.IsNull()){fhBeautyFDmax=(TH1D*)h->Clone("fhBeautyFDmax"); } else fhBeautyFDmax=(TH1D*)h->Clone(strname.Data()); } } void AliHFDhadronCorrSystUnc::BuildTotalUncHisto(){ if(fhTotalMin)delete fhTotalMin; if(fhTotalMax)delete fhTotalMax; fhTotalMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhTotalMin"); fhTotalMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhTotalMax"); Double_t errMin,errMax; for(Int_t j=1;j<=fhTotalMin->GetNbinsX();j++){ errMin=fhMCclosureTestMin->GetBinContent(j)*fhMCclosureTestMin->GetBinContent(j); errMin+=fhMCcorrectionsMin->GetBinContent(j)*fhMCcorrectionsMin->GetBinContent(j); errMin+=fhMCDefficiencyMin->GetBinContent(j)*fhMCDefficiencyMin->GetBinContent(j); errMin+=fhSecContaminationMin->GetBinContent(j)*fhSecContaminationMin->GetBinContent(j); errMin+=fhYieldExtraction->GetBinContent(j)*fhYieldExtraction->GetBinContent(j); errMin+=fhBackSubtractionMin->GetBinContent(j)*fhBackSubtractionMin->GetBinContent(j); errMin+=fhBeautyFDmin->GetBinContent(j)*fhBeautyFDmin->GetBinContent(j); fhTotalMin->SetBinContent(j,-TMath::Sqrt(errMin)); errMax=fhMCclosureTestMax->GetBinContent(j)*fhMCclosureTestMax->GetBinContent(j); errMax+=fhMCcorrectionsMax->GetBinContent(j)*fhMCcorrectionsMax->GetBinContent(j); errMax+=fhMCDefficiencyMax->GetBinContent(j)*fhMCDefficiencyMax->GetBinContent(j); errMax+=fhSecContaminationMax->GetBinContent(j)*fhSecContaminationMax->GetBinContent(j); errMax+=fhYieldExtraction->GetBinContent(j)*fhYieldExtraction->GetBinContent(j); errMax+=fhBackSubtractionMax->GetBinContent(j)*fhBackSubtractionMax->GetBinContent(j); errMax+=fhBeautyFDmax->GetBinContent(j)*fhBeautyFDmax->GetBinContent(j); fhTotalMax->SetBinContent(j,TMath::Sqrt(errMax)); } fhTotalMin->SetLineColor(kBlack); fhTotalMin->SetLineWidth(2); fhTotalMin->SetFillStyle(0); fhTotalMin->SetFillColor(kBlack); fhTotalMin->SetMarkerColor(kBlack); fhTotalMin->SetMarkerStyle(20); fhTotalMax->SetLineColor(kBlack); fhTotalMax->SetLineWidth(2); fhTotalMax->SetFillStyle(0); fhTotalMax->SetFillColor(kBlack); fhTotalMax->SetMarkerColor(kBlack); fhTotalMax->SetMarkerStyle(20); } void AliHFDhadronCorrSystUnc::BuildTotalNonFlatUncHisto(){ if(fhTotalNonFlatDPhiMin)delete fhTotalNonFlatDPhiMin; if(fhTotalNonFlatDPhiMax)delete fhTotalNonFlatDPhiMax; fhTotalNonFlatDPhiMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhTotalNonFlatDPhiMin"); fhTotalNonFlatDPhiMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhTotalNonFlatDPhiMax"); Double_t errMin,errMax,mcClosureMinmax,mcClosureMaxmin; mcClosureMinmax=fhMCclosureTestMin->GetBinContent(fhMCclosureTestMin->GetMaximumBin()); mcClosureMaxmin=fhMCclosureTestMax->GetBinContent(fhMCclosureTestMax->GetMinimumBin()); Printf("MC closure - The max of min is: %f, the min of max is: %f", mcClosureMinmax, mcClosureMaxmin); for(Int_t j=1;j<=fhTotalNonFlatDPhiMin->GetNbinsX();j++){ errMin=(fhMCclosureTestMin->GetBinContent(j)*fhMCclosureTestMin->GetBinContent(j)-mcClosureMinmax*mcClosureMinmax);// Forced to this quadrature subtraction, doing: (fhMCclosureTestMin->GetBinContent(j)-mcClosureMinmax)*(fhMCclosureTestMin->GetBinContent(j)-mcClosureMinmax) gives the wrong result.. of course errMin+=fhBeautyFDmin->GetBinContent(j)*fhBeautyFDmin->GetBinContent(j); fhTotalNonFlatDPhiMin->SetBinContent(j,-TMath::Sqrt(errMin)); errMax=fhMCclosureTestMax->GetBinContent(j)*fhMCclosureTestMax->GetBinContent(j)-mcClosureMaxmin*mcClosureMaxmin; // Forced to this quadrature subtraction, doing:(fhMCclosureTestMax->GetBinContent(j)-mcClosureMaxmin)*(fhMCclosureTestMax->GetBinContent(j)-mcClosureMaxmin) gives the wrong result.. of course errMax+=fhBeautyFDmax->GetBinContent(j)*fhBeautyFDmax->GetBinContent(j); fhTotalNonFlatDPhiMax->SetBinContent(j,TMath::Sqrt(errMax)); } fhtotFlatMin=(TH1D*)fhTotalMin->Clone("hTotFlatDPhiMin"); fhtotFlatMin->SetTitle("#Delta#phi indipendent"); fhtotFlatMax=(TH1D*)fhTotalMax->Clone("hTotFlatDPhiMax"); fhtotFlatMax->SetTitle("#Delta#phi indipendent"); for(Int_t jfl=1;jfl<=fhtotFlatMin->GetNbinsX();jfl++){ fhtotFlatMin->SetBinContent(jfl,-TMath::Sqrt(fhTotalMin->GetBinContent(jfl)*fhTotalMin->GetBinContent(jfl)-fhTotalNonFlatDPhiMin->GetBinContent(jfl)*fhTotalNonFlatDPhiMin->GetBinContent(jfl))); fhtotFlatMax->SetBinContent(jfl,TMath::Sqrt(fhTotalMax->GetBinContent(jfl)*fhTotalMax->GetBinContent(jfl)-fhTotalNonFlatDPhiMax->GetBinContent(jfl)*fhTotalNonFlatDPhiMax->GetBinContent(jfl))); } fhtotFlatMin->SetLineStyle(2); fhtotFlatMax->SetLineStyle(2); fhTotalNonFlatDPhiMin->SetLineColor(kBlue); fhTotalNonFlatDPhiMin->SetLineWidth(2); fhTotalNonFlatDPhiMin->SetFillStyle(0); fhTotalNonFlatDPhiMin->SetFillColor(kBlue); fhTotalNonFlatDPhiMin->SetMarkerColor(kBlue); fhTotalNonFlatDPhiMin->SetMarkerStyle(20); fhTotalNonFlatDPhiMax->SetLineColor(kBlue); fhTotalNonFlatDPhiMax->SetLineWidth(2); fhTotalNonFlatDPhiMax->SetFillStyle(0); fhTotalNonFlatDPhiMax->SetFillColor(kBlue); fhTotalNonFlatDPhiMax->SetMarkerColor(kBlue); fhTotalNonFlatDPhiMax->SetMarkerStyle(20); } void AliHFDhadronCorrSystUnc::BuildTotalNonFDUncHisto(){ if(fhTotalNonFDMin)delete fhTotalNonFDMin; if(fhTotalNonFDMax)delete fhTotalNonFDMax; fhTotalNonFDMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhTotalNonFDMin"); fhTotalNonFDMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhTotalNonFDMax"); Double_t errMin,errMax; for(Int_t j=1;j<=fhTotalNonFDMin->GetNbinsX();j++){ errMin=fhMCclosureTestMin->GetBinContent(j)*fhMCclosureTestMin->GetBinContent(j); errMin+=fhMCcorrectionsMin->GetBinContent(j)*fhMCcorrectionsMin->GetBinContent(j); errMin+=fhMCDefficiencyMin->GetBinContent(j)*fhMCDefficiencyMin->GetBinContent(j); errMin+=fhSecContaminationMin->GetBinContent(j)*fhSecContaminationMin->GetBinContent(j); errMin+=fhYieldExtraction->GetBinContent(j)*fhYieldExtraction->GetBinContent(j); errMin+=fhBackSubtractionMin->GetBinContent(j)*fhBackSubtractionMin->GetBinContent(j); fhTotalNonFDMin->SetBinContent(j,-TMath::Sqrt(errMin)); errMax=fhMCclosureTestMax->GetBinContent(j)*fhMCclosureTestMax->GetBinContent(j); errMax+=fhMCcorrectionsMax->GetBinContent(j)*fhMCcorrectionsMax->GetBinContent(j); errMax+=fhMCDefficiencyMax->GetBinContent(j)*fhMCDefficiencyMax->GetBinContent(j); errMax+=fhSecContaminationMax->GetBinContent(j)*fhSecContaminationMax->GetBinContent(j); errMax+=fhYieldExtraction->GetBinContent(j)*fhYieldExtraction->GetBinContent(j); errMax+=fhBackSubtractionMax->GetBinContent(j)*fhBackSubtractionMax->GetBinContent(j); fhTotalNonFDMax->SetBinContent(j,TMath::Sqrt(errMax)); } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPP2010(Int_t meson,Double_t ptD,Double_t minptAss){ if(meson==0){ // 0.3 GeV/c if(TMath::Abs(minptAss-0.3)<0.0001){ if(ptD>2&&ptD<5){ InitStandardUncertaintiesPP2010DzeroLowPtAss03HP(); } else if(ptD>5&&ptD<8){ InitStandardUncertaintiesPP2010DzeroMidPtAss03HP(); } else if(ptD>8&&ptD<16){ InitStandardUncertaintiesPP2010DzeroHighPtAss03HP(); } else { printf("Methods for syst unc not ready yet for this pt(ass) bin \n"); } } // 0.5 GeV/c else if(TMath::Abs(minptAss-0.5)<0.0001){ if(ptD>3&&ptD<5){ InitStandardUncertaintiesPP2010DzeroLowPtAss05(); } else if(ptD>5&&ptD<8){ InitStandardUncertaintiesPP2010DzeroMidPtAss05(); } else if(ptD>8&&ptD<16){ InitStandardUncertaintiesPP2010DzeroHighPtAss05(); } else { printf("Methods for syst unc not ready yet for this pt(ass) bin \n"); } } // 1 GeV/c else if(TMath::Abs(minptAss-1.)<0.0001){ if(ptD>3&&ptD<5){ InitStandardUncertaintiesPP2010DzeroLowPtAss1(); } else if(ptD>5&&ptD<8){ InitStandardUncertaintiesPP2010DzeroMidPtAss1(); } else if(ptD>8&&ptD<16){ InitStandardUncertaintiesPP2010DzeroHighPtAss1(); } else { printf("Methods for syst unc not ready yet for this pt(ass) bin \n"); } } else { printf("Methods for syst unc not ready yet for this pt(ass) bin \n"); } } else if(meson==1){ // 0.3 GeV/c if(TMath::Abs(minptAss-0.3)<0.0001){ if(ptD>3&&ptD<5){ InitStandardUncertaintiesPP2010DstarLowPtAss03HP(); } else if(ptD>5&&ptD<8){ InitStandardUncertaintiesPP2010DstarMidPtAss03HP(); } else if(ptD>8&&ptD<16){ InitStandardUncertaintiesPP2010DstarHighPtAss03HP(); } else { printf("Methods for syst unc not ready yet for this pt(ass) bin \n"); } } // 0.5 GeV/c else if(TMath::Abs(minptAss-0.5)<0.0001){ if(ptD>3&&ptD<5){ InitStandardUncertaintiesPP2010DstarLowPtAss05(); } else if(ptD>5&&ptD<8){ InitStandardUncertaintiesPP2010DstarMidPtAss05(); } else if(ptD>8&&ptD<16){ InitStandardUncertaintiesPP2010DstarHighPtAss05(); } else { printf("Methods for syst unc not ready yet for this pt(ass) bin \n"); } } // 1 GeV/c else if(TMath::Abs(minptAss-1.)<0.0001){ if(ptD>3&&ptD<5){ InitStandardUncertaintiesPP2010DstarLowPtAss1(); } else if(ptD>5&&ptD<8){ InitStandardUncertaintiesPP2010DstarMidPtAss1(); } else if(ptD>8&&ptD<16){ InitStandardUncertaintiesPP2010DstarHighPtAss1(); } else { printf("Methods for syst unc not ready yet for this pt(ass) bin \n"); } } else { printf("Methods for syst unc not ready yet for this pt(ass) bin \n"); } } else if(meson==2){ // 0.3 GeV/c if(TMath::Abs(minptAss-0.3)<0.0001){ if(ptD>3&&ptD<5){ InitStandardUncertaintiesPP2010DplusLowPtAss03(); } else if(ptD>5&&ptD<8){ InitStandardUncertaintiesPP2010DplusMidPtAss03(); } else if(ptD>8&&ptD<16){ InitStandardUncertaintiesPP2010DplusHighPtAss03(); } else { printf("Methods for syst unc not ready yet for this pt(ass) bin \n"); } } // 0.5 GeV/c else if(TMath::Abs(minptAss-0.5)<0.0001){ if(ptD>3&&ptD<5){ InitStandardUncertaintiesPP2010DplusLowPtAss05(); } else if(ptD>5&&ptD<8){ InitStandardUncertaintiesPP2010DplusMidPtAss05(); } else if(ptD>8&&ptD<16){ InitStandardUncertaintiesPP2010DplusHighPtAss05(); } else { printf("Methods for syst unc not ready yet for this pt(ass) bin \n"); } } // 1 GeV/c else if(TMath::Abs(minptAss-1.)<0.0001){ if(ptD>3&&ptD<5){ InitStandardUncertaintiesPP2010DplusLowPtAss1(); } else if(ptD>5&&ptD<8){ InitStandardUncertaintiesPP2010DplusMidPtAss1(); } else if(ptD>8&&ptD<16){ InitStandardUncertaintiesPP2010DplusHighPtAss1(); } else { printf("Methods for syst unc not ready yet for this pt(ass) bin \n"); } } else { printf("Methods for syst unc not ready yet for this pt(ass) bin \n"); } } else { printf("PP:No meson is found Check your input \n"); } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPPb2013(Int_t meson,Double_t ptD,Double_t minptAss){ if(meson==0){ // 0.3 GeV/c if(TMath::Abs(minptAss-0.3)<0.0001){ if(ptD>3&&ptD<5){ InitStandardUncertaintiesPPb2013DzeroLowPtAss03(); } else if(ptD>5&&ptD<8){ InitStandardUncertaintiesPPb2013DzeroMidPtAss03(); } else if(ptD>8&&ptD<16){ InitStandardUncertaintiesPPb2013DzeroHighPtAss03(); } else { printf("Methods for syst unc not ready yet for this pt(ass) bin \n"); } } // 0.5 GeV/c else if(TMath::Abs(minptAss-0.5)<0.0001){ if(ptD>3&&ptD<5){ InitStandardUncertaintiesPPb2013DzeroLowPtAss05(); } else if(ptD>5&&ptD<8){ InitStandardUncertaintiesPPb2013DzeroMidPtAss05(); } else if(ptD>8&&ptD<16){ InitStandardUncertaintiesPPb2013DzeroHighPtAss05(); } else { printf("Methods for syst unc not ready yet for this pt(ass) bin \n"); } } // 1 GeV/c else if(TMath::Abs(minptAss-1.)<0.0001){ if(ptD>3&&ptD<5){ InitStandardUncertaintiesPPb2013DzeroLowPtAss1(); } else if(ptD>5&&ptD<8){ InitStandardUncertaintiesPPb2013DzeroMidPtAss1(); } else if(ptD>8&&ptD<16){ InitStandardUncertaintiesPPb2013DzeroHighPtAss1(); } else { printf("Methods for syst unc not ready yet for this pt(ass) bin \n"); } } else { printf("Methods for syst unc not ready yet for this pt(ass) bin \n"); } } else if(meson==1){ // 0.3 GeV/c if(TMath::Abs(minptAss-0.3)<0.0001){ if(ptD>3&&ptD<5){ InitStandardUncertaintiesPPb2013DstarLowPtAss03(); } else if(ptD>5&&ptD<8){ InitStandardUncertaintiesPPb2013DstarMidPtAss03(); } else if(ptD>8&&ptD<16){ InitStandardUncertaintiesPPb2013DstarHighPtAss03(); } else { printf("Methods for syst unc not ready yet for this pt(ass) bin \n"); } } // 0.5 GeV/c else if(TMath::Abs(minptAss-0.5)<0.0001){ if(ptD>3&&ptD<5){ InitStandardUncertaintiesPPb2013DstarLowPtAss05(); } else if(ptD>5&&ptD<8){ InitStandardUncertaintiesPPb2013DstarMidPtAss05(); } else if(ptD>8&&ptD<16){ InitStandardUncertaintiesPPb2013DstarHighPtAss05(); } else { printf("Methods for syst unc not ready yet for this pt(ass) bin \n"); } } // 1 GeV/c else if(TMath::Abs(minptAss-1.)<0.0001){ if(ptD>3&&ptD<5){ InitStandardUncertaintiesPPb2013DstarLowPtAss1(); } else if(ptD>5&&ptD<8){ InitStandardUncertaintiesPPb2013DstarMidPtAss1(); } else if(ptD>8&&ptD<16){ InitStandardUncertaintiesPPb2013DstarHighPtAss1(); } else { printf("Methods for syst unc not ready yet for this pt(ass) bin \n"); } } else { printf("Methods for syst unc not ready yet for this pt(ass) bin \n"); } } else if(meson==2){ // 0.3 GeV/c if(TMath::Abs(minptAss-0.3)<0.0001){ if(ptD>3&&ptD<5){ InitStandardUncertaintiesPPb2013DplusLowPtAss03(); } else if(ptD>5&&ptD<8){ InitStandardUncertaintiesPPb2013DplusMidPtAss03(); } else if(ptD>8&&ptD<16){ InitStandardUncertaintiesPPb2013DplusHighPtAss03(); } else { printf("Methods for syst unc not ready yet for this pt(ass) bin \n"); } } // 0.5 GeV/c else if(TMath::Abs(minptAss-0.5)<0.0001){ if(ptD>3&&ptD<5){ InitStandardUncertaintiesPPb2013DplusLowPtAss05(); } else if(ptD>5&&ptD<8){ InitStandardUncertaintiesPPb2013DplusMidPtAss05(); } else if(ptD>8&&ptD<16){ InitStandardUncertaintiesPPb2013DplusHighPtAss05(); } else { printf("Methods for syst unc not ready yet for this pt(ass) bin \n"); } } // 1 GeV/c else if(TMath::Abs(minptAss-1.)<0.0001){ if(ptD>3&&ptD<5){ InitStandardUncertaintiesPPb2013DplusLowPtAss1(); } else if(ptD>5&&ptD<8){ InitStandardUncertaintiesPPb2013DplusMidPtAss1(); } else if(ptD>8&&ptD<16){ InitStandardUncertaintiesPPb2013DplusHighPtAss1(); } else { printf("Methods for syst unc not ready yet for this pt(ass) bin \n"); } } else { printf("Methods for syst unc not ready yet for this pt(ass) bin \n"); } } else { printf("pPb-No meson is found Check your input \n"); } } TGraphAsymmErrors* AliHFDhadronCorrSystUnc::GetUncGraphFromHistos(TH1D *hRef,TH1D *hMin,TH1D *hMax){ // Int_t npoints=hMin->GetNbinsX(); Double_t ew=hMin->GetBinWidth(1)/2.; Double_t value,eyl,eym; TGraphAsymmErrors *gr=new TGraphAsymmErrors(); for(Int_t j=1;j<=hMin->GetNbinsX();j++){ if(hRef){ value=hRef->GetBinContent(j); eyl=hMin->GetBinContent(j)*value; if(eyl<0.)eyl*=-1.; if(hMax)eym=hMax->GetBinContent(j)*value; else eym=eyl; } else { value=0.; eyl=hMin->GetBinContent(j); if(eyl<0.)eyl*=-1.; if(hMax)eym=hMax->GetBinContent(j); else eym=eyl; } gr->SetPoint(j-1,hMin->GetBinCenter(j),value); gr->SetPointError(j-1,ew,ew,eyl,eym); } return gr; } void AliHFDhadronCorrSystUnc::BuildGraphsRelUnc(){ if(fgrYieldUncRel)delete fgrYieldUncRel; if(fgrBackSubUncRel)delete fgrBackSubUncRel; if(fgrMCcorrectionsRel)delete fgrMCcorrectionsRel; if(fgrMCDefficiencyRel)delete fgrMCDefficiencyRel; if(fgrSecContaminationRel)delete fgrSecContaminationRel; if(fgrMCclosureTestRel)delete fgrMCclosureTestRel; if(fgrBeautyFDRel)delete fgrBeautyFDRel; fgrYieldUncRel=GetUncGraphFromHistos(0x0,fhYieldExtraction,0x0); fgrYieldUncRel->SetName("fgrYieldUncRel"); fgrYieldUncRel->SetTitle("D meson yield"); fgrBackSubUncRel=GetUncGraphFromHistos(0x0,fhBackSubtractionMin,fhBackSubtractionMax); fgrBackSubUncRel->SetName("fgrBackSubUncRel"); fgrBackSubUncRel->SetTitle("Background D correlation subtraction"); fgrMCcorrectionsRel=GetUncGraphFromHistos(0x0,fhMCcorrectionsMin,fhMCcorrectionsMax); fgrMCcorrectionsRel->SetName("fgrMCcorrectionsRel"); fgrMCcorrectionsRel->SetTitle("Associated track efficiency"); fgrMCDefficiencyRel=GetUncGraphFromHistos(0x0,fhMCDefficiencyMin,fhMCDefficiencyMax); fgrMCDefficiencyRel->SetName("fgrMCDefficiencyRel"); fgrMCDefficiencyRel->SetTitle("D meson efficiency"); fgrSecContaminationRel=GetUncGraphFromHistos(0x0,fhSecContaminationMin,fhSecContaminationMax); fgrSecContaminationRel->SetName("fgrSecContaminationRel"); fgrSecContaminationRel->SetTitle("Secondary contamination"); fgrMCclosureTestRel=GetUncGraphFromHistos(0x0,fhMCclosureTestMin,fhMCclosureTestMax); fgrMCclosureTestRel->SetName("fgrMCclosureTestRel"); fgrMCclosureTestRel->SetTitle("MC closure test"); fgrBeautyFDRel=GetUncGraphFromHistos(0x0,fhBeautyFDmin,fhBeautyFDmax); fgrBeautyFDRel->SetName("fgrBeautyFDRel"); fgrBeautyFDRel->SetTitle("Feed-down"); fgrYieldUncRel->SetLineColor(kBlue); fgrYieldUncRel->SetLineWidth(2); fgrYieldUncRel->SetFillStyle(3002); fgrYieldUncRel->SetFillColor(kBlue); fgrYieldUncRel->SetMarkerColor(kBlue); fgrYieldUncRel->SetMarkerStyle(20); fgrBackSubUncRel->SetLineColor(kMagenta); fgrBackSubUncRel->SetLineWidth(2); fgrBackSubUncRel->SetFillStyle(3008); fgrBackSubUncRel->SetFillColor(kMagenta); fgrBackSubUncRel->SetMarkerColor(kBlue); fgrBackSubUncRel->SetMarkerStyle(20); fgrMCcorrectionsRel->SetLineColor(kGreen); fgrMCcorrectionsRel->SetLineWidth(2); fgrMCcorrectionsRel->SetFillStyle(3006); fgrMCcorrectionsRel->SetFillColor(kGreen); fgrMCcorrectionsRel->SetMarkerColor(kGreen); fgrMCcorrectionsRel->SetMarkerStyle(22); fgrMCDefficiencyRel->SetLineColor(kCyan); fgrMCDefficiencyRel->SetLineWidth(2); fgrMCDefficiencyRel->SetFillStyle(3004); fgrMCDefficiencyRel->SetFillColor(kCyan); fgrMCDefficiencyRel->SetMarkerColor(kCyan); fgrMCDefficiencyRel->SetMarkerStyle(22); fgrSecContaminationRel->SetLineColor(kOrange); fgrSecContaminationRel->SetLineWidth(2); fgrSecContaminationRel->SetFillStyle(3007); fgrSecContaminationRel->SetFillColor(kOrange); fgrSecContaminationRel->SetMarkerColor(kOrange); fgrSecContaminationRel->SetMarkerStyle(22); fgrMCclosureTestRel->SetLineColor(kRed); fgrMCclosureTestRel->SetLineWidth(2); fgrMCclosureTestRel->SetFillStyle(3005); fgrMCclosureTestRel->SetFillColor(kRed); fgrMCclosureTestRel->SetMarkerColor(kRed); fgrMCclosureTestRel->SetMarkerStyle(26); fgrBeautyFDRel->SetLineColor(kViolet); fgrBeautyFDRel->SetLineWidth(2); fgrBeautyFDRel->SetFillStyle(3021); fgrBeautyFDRel->SetFillColor(kViolet); fgrBeautyFDRel->SetMarkerColor(kViolet); fgrBeautyFDRel->SetMarkerStyle(28); } void AliHFDhadronCorrSystUnc::BuildGraphsUnc(TH1D *hRef){ if(fgrYieldUnc)delete fgrYieldUnc; if(fgrBackSubUnc)delete fgrBackSubUnc; if(fgrMCcorrections)delete fgrMCcorrections; if(fgrMCDefficiency)delete fgrMCDefficiency; if(fgrSecContamination)delete fgrSecContamination; if(fgrMCclosureTest)delete fgrMCclosureTest; if(fgrBeautyFD)delete fgrBeautyFD; if(fgrTotalRel)delete fgrTotalRel; if(fgrTotal)delete fgrTotal; if(fgrTotalNonFlatDPhi)delete fgrTotalNonFlatDPhi; if(fgrTotalNonFlatDPhiRel)delete fgrTotalNonFlatDPhiRel; if(fgrTotalFlatDPhi)delete fgrTotalFlatDPhi; if(fgrTotalFlatDPhiRel)delete fgrTotalFlatDPhiRel; fgrYieldUnc=GetUncGraphFromHistos(hRef,fhYieldExtraction,0x0); fgrYieldUnc->SetName("fgrYieldUnc"); fgrYieldUnc->SetTitle("D meson yield"); fgrBackSubUnc=GetUncGraphFromHistos(hRef,fhBackSubtractionMin,fhBackSubtractionMax); fgrBackSubUnc->SetName("fgrBackSubUnc"); fgrBackSubUnc->SetTitle("Background D correlation subtraction"); fgrMCcorrections=GetUncGraphFromHistos(hRef,fhMCcorrectionsMin,fhMCcorrectionsMax); fgrMCcorrections->SetName("fgrMCcorrections"); fgrMCcorrections->SetTitle("Associated track efficiency"); fgrMCDefficiency=GetUncGraphFromHistos(hRef,fhMCDefficiencyMin,fhMCDefficiencyMax); fgrMCDefficiency->SetName("fgrMCDefficiency"); fgrMCDefficiency->SetTitle("D meson efficiency"); fgrSecContamination=GetUncGraphFromHistos(hRef,fhSecContaminationMin,fhSecContaminationMax); fgrSecContamination->SetName("fgrSecContamination"); fgrSecContamination->SetTitle("Secondary contamination"); fgrMCclosureTest=GetUncGraphFromHistos(hRef,fhMCclosureTestMin,fhMCclosureTestMax); fgrMCclosureTest->SetName("fgrMCclosureTest"); fgrMCclosureTest->SetTitle("MC closure test"); fgrBeautyFD=GetUncGraphFromHistos(hRef,fhBeautyFDmin,fhBeautyFDmax); fgrBeautyFD->SetName("fgrBeautyFD"); fgrBeautyFD->SetTitle("Feed-down"); fgrYieldUnc->SetLineColor(kBlue); fgrYieldUnc->SetLineWidth(2); fgrYieldUnc->SetFillStyle(0); fgrYieldUnc->SetFillColor(kBlue); fgrYieldUnc->SetMarkerColor(kBlue); fgrYieldUnc->SetMarkerStyle(20); fgrBackSubUnc->SetLineColor(kMagenta); fgrBackSubUnc->SetLineWidth(2); fgrBackSubUnc->SetFillStyle(0); fgrBackSubUnc->SetFillColor(kMagenta); fgrBackSubUnc->SetMarkerColor(kBlue); fgrBackSubUnc->SetMarkerStyle(20); fgrMCcorrections->SetLineColor(kGreen); fgrMCcorrections->SetLineWidth(2); fgrMCcorrections->SetFillStyle(0); fgrMCcorrections->SetFillColor(kGreen); fgrMCcorrections->SetMarkerColor(kGreen); fgrMCcorrections->SetMarkerStyle(22); fgrMCDefficiency->SetLineColor(kCyan); fgrMCDefficiency->SetLineWidth(2); fgrMCDefficiency->SetFillStyle(0); fgrMCDefficiency->SetFillColor(kCyan); fgrMCDefficiency->SetMarkerColor(kCyan); fgrMCDefficiency->SetMarkerStyle(22); fgrSecContamination->SetLineColor(kOrange); fgrSecContamination->SetLineWidth(2); fgrSecContamination->SetFillStyle(0); fgrSecContamination->SetFillColor(kOrange); fgrSecContamination->SetMarkerColor(kOrange); fgrSecContamination->SetMarkerStyle(22); fgrMCclosureTest->SetLineColor(kRed); fgrMCclosureTest->SetLineWidth(2); fgrMCclosureTest->SetFillStyle(0); fgrMCclosureTest->SetFillColor(kRed); fgrMCclosureTest->SetMarkerColor(kRed); fgrMCclosureTest->SetMarkerStyle(26); fgrBeautyFD->SetLineColor(kViolet); fgrBeautyFD->SetLineWidth(2); fgrBeautyFD->SetFillStyle(0); fgrBeautyFD->SetFillColor(kViolet); fgrBeautyFD->SetMarkerColor(kViolet); fgrBeautyFD->SetMarkerStyle(28); // fgrTotalRel=GetUncGraphFromHistos(0x0,fhTotalMin,fhTotalMax); if(fhTotalMin){ fgrTotalRel=GetUncGraphFromHistos(0x0,fhTotalMin,fhTotalMax); fgrTotalRel->SetLineColor(kBlack); fgrTotalRel->SetLineWidth(2); fgrTotalRel->SetFillStyle(0); // fgrTotalRel->SetFillColor(kRed); fgrTotalRel->SetMarkerColor(kBlack); fgrTotalRel->SetMarkerStyle(26); fgrTotal=GetUncGraphFromHistos(hRef,fhTotalMin,fhTotalMax); fgrTotal->SetLineColor(kBlack); fgrTotal->SetLineWidth(2); fgrTotal->SetFillStyle(0); fgrTotal->SetFillColor(kRed); fgrTotal->SetMarkerColor(kBlack); fgrTotal->SetMarkerStyle(26); } if(fhTotalNonFDMin){ fgrTotalNonFD=GetUncGraphFromHistos(hRef,fhTotalNonFDMin,fhTotalNonFDMax); fgrTotalNonFD->SetLineColor(kBlue); fgrTotalNonFD->SetLineWidth(2); fgrTotalNonFD->SetFillStyle(3005); fgrTotalNonFD->SetFillColor(kBlue); fgrTotalNonFD->SetMarkerColor(kBlue); fgrTotalNonFD->SetMarkerStyle(26); } if(fhTotalNonFlatDPhiMin){ fgrTotalNonFlatDPhiRel=GetUncGraphFromHistos(0x0,fhTotalNonFlatDPhiMin,fhTotalNonFlatDPhiMax); fgrTotalNonFlatDPhiRel->SetLineColor(kBlack); fgrTotalNonFlatDPhiRel->SetLineWidth(2); fgrTotalNonFlatDPhiRel->SetFillStyle(0); // fgrTotalRel->SetFillColor(kRed); fgrTotalNonFlatDPhiRel->SetMarkerColor(kBlack); fgrTotalNonFlatDPhiRel->SetMarkerStyle(26); fgrTotalNonFlatDPhi=GetUncGraphFromHistos(hRef,fhTotalNonFlatDPhiMin,fhTotalNonFlatDPhiMax); fgrTotalNonFlatDPhi->SetLineColor(kBlack); fgrTotalNonFlatDPhi->SetLineWidth(2); fgrTotalNonFlatDPhi->SetFillStyle(3005); fgrTotalNonFlatDPhi->SetFillColor(kRed); fgrTotalNonFlatDPhi->SetMarkerColor(kBlack); fgrTotalNonFlatDPhi->SetMarkerStyle(26); fgrTotalFlatDPhiRel=GetUncGraphFromHistos(0x0,fhtotFlatMin,fhtotFlatMax); fgrTotalFlatDPhiRel->SetLineColor(kBlack); fgrTotalFlatDPhiRel->SetLineWidth(2); fgrTotalFlatDPhiRel->SetFillStyle(0); // fgrTotalRel->SetFillColor(kRed); fgrTotalFlatDPhiRel->SetMarkerColor(kBlack); fgrTotalFlatDPhiRel->SetMarkerStyle(26); fgrTotalFlatDPhi=GetUncGraphFromHistos(hRef,fhtotFlatMin,fhtotFlatMax); fgrTotalFlatDPhi->SetLineColor(kBlack); fgrTotalFlatDPhi->SetLineWidth(2); fgrTotalFlatDPhi->SetFillStyle(3005); fgrTotalFlatDPhi->SetFillColor(kBlack); fgrTotalFlatDPhi->SetMarkerColor(kBlack); fgrTotalFlatDPhi->SetMarkerStyle(26); } } TCanvas* AliHFDhadronCorrSystUnc::BuildSystUncertaintyPlotVsDeltaPhi(TH1D *hCorrPlot,Int_t doInit){ if(doInit!=0){ BuildTotalUncHisto(); BuildTotalNonFDUncHisto(); BuildTotalNonFlatUncHisto(); BuildGraphsUnc(hCorrPlot); BuildGraphsRelUnc(); } // Easy canva with relative uncertainties TCanvas *cCanvaRelUnc=new TCanvas("cCanvaRelUnc","cCanvaRelUnc",700,700); cCanvaRelUnc->cd(); TH2D *hDraw=new TH2D("hDraw","hDraw",32,-TMath::Pi()/2.,3./2.*TMath::Pi(),200,-2.,2.); hDraw->SetXTitle("#Delta#phi (rad)"); hDraw->SetYTitle("Relative uncertainty"); hDraw->Draw(); fgrYieldUncRel->Draw("E2"); fgrBackSubUncRel->Draw("E2"); fgrMCcorrectionsRel->Draw("E2"); fgrMCDefficiencyRel->Draw("E2"); fgrSecContaminationRel->Draw("E2"); fgrMCclosureTestRel->Draw("E2"); fgrBeautyFDRel->Draw("E2"); // fgrTotalRel->Draw("E2"); fhtotFlatMin->Draw("same"); fhtotFlatMax->Draw("same"); fhTotalMin->Draw("same"); fhTotalMax->Draw("same"); TCanvas *cCanvaFinalPlot=new TCanvas("cCanvaFinalPlot","cCanvaFinalPlot",700,700); cCanvaFinalPlot->cd(); hCorrPlot->Draw(); // fgrYieldUnc->Draw("pE2"); // fgrBackSubUnc->Draw("pE2"); // fgrMCcorrections->Draw("pE2"); // fgrMCclosureTest->Draw("pE2"); // fgrBeautyFD->Draw("pE2"); fgrTotal->Draw("E2"); TCanvas *cCanvaFinalPlotFD=new TCanvas("cCanvaFinalPlotFD","cCanvaFinalPlotFD",700,700); cCanvaFinalPlotFD->cd(); hCorrPlot->Draw(); // fgrYieldUnc->Draw("pE2"); // fgrBackSubUnc->Draw("pE2"); // fgrMCcorrections->Draw("pE2"); // fgrMCclosureTest->Draw("pE2"); // fgrBeautyFD->Draw("pE2"); fgrBeautyFD->Draw("E2"); fgrTotalNonFD->Draw("E2"); fgrTotalNonFlatDPhi->Draw("E2"); fgrTotalFlatDPhi->Draw("E2"); return cCanvaFinalPlot; } TH1D* AliHFDhadronCorrSystUnc::GetVariedHisto(const TH1D *hIn,const TGraphAsymmErrors *gr,Int_t minmax){ TH1D *hOut; if(minmax==0){ hOut=(TH1D*)hIn->Clone(Form("%sVariedMin",hIn->GetName())); } else if(minmax==1){ hOut=(TH1D*)hIn->Clone(Form("%sVariedMax",hIn->GetName())); } // Int_t np=gr->GetN(); Double_t *x,*y,*ely,*ehy;//*elx,*ehx, x=gr->GetX(); y=gr->GetY(); // elx=gr->GetEXlow(); // ehx=gr->GetEXhigh(); ely=gr->GetEYlow(); ehy=gr->GetEYhigh(); for(Int_t jp=1;jp<=hIn->GetNbinsX();jp++){ if(TMath::Abs(x[jp-1]-hIn->GetBinCenter(jp))>0.0001){ Printf("Bin Mismatch: this method assumes that the graph has the points in the center of the histo bin centers"); return 0x0; } if(TMath::Abs(y[jp-1]-hIn->GetBinContent(jp))>0.0001){ Printf("Value Mismatch: this method relies on the fact that the graph central values are the same as those of the histo"); return 0x0; } if(minmax==0){ hOut->SetBinContent(jp,y[jp-1]-ely[jp-1]); } else if(minmax==1){ hOut->SetBinContent(jp,y[jp-1]+ehy[jp-1]); } hOut->SetBinError(jp,hIn->GetBinError(jp)); } return hOut; } //////////////////////////////////////////////////////////////////////////////////////////////////////// ///// ///// METHODS WITH UNCERTAINTIES: PP 2010, for kinematic cases approved after HP2013 ///// //////////////////////////////////////////////////////////////////////////////////////////////////////// // START FROM DPLUS FOR PT(ASSOC)>0.3 void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPP2010DplusLowPtAss03(){ Printf("TEMPORARY VALUES (PP 2010 ass 03)"); fmeson=0; fstrmeson="Dplus"; fstrptAss="ptAsMore03"; fstrptD="Dpt3to5"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS ( associatate track efficiency): // -5% +10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.05); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.10); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.05); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.05); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.0); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ // x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPP2010DplusMidPtAss03(){ Printf("TEMPORARY VALUES (PP 2010 ass 03)"); fmeson=0; fstrmeson="Dplus"; fstrptAss="ptAsMore03"; fstrptD="Dpt5to8"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS: -5% +10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.05); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.10); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.05); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.05); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.0); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPP2010DplusHighPtAss03(){ Printf("TEMPORARY VALUES (PP 2010 ass 03)"); fmeson=0; fstrmeson="Dplus"; fstrptAss="ptAsMore03"; fstrptD="Dpt8to16"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS, -5% 10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.05); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.10); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.05); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.05); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.0); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } //////// HIGHER PT ASS THRESHOLDS void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPP2010DzeroLowPtAss05(){ Printf("Setting syst for D0 pp 2010 3-5 0.5 thr"); fmeson=0; fstrmeson="Dzero"; fstrptAss="ptAsMore05"; fstrptD="Dpt3to5"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS ( associatate track efficiency): // -5% +10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.05); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.10); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.05); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.05); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ // x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPP2010DzeroMidPtAss05(){ Printf("Setting syst for D0 pp 2010 5-8 0.5 thr"); fmeson=0; fstrmeson="Dzero"; fstrptAss="ptAsMore05"; fstrptD="Dpt5to8"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS: -5% +10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.05); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.10); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.05); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.05); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPP2010DzeroHighPtAss05(){ Printf("Setting syst for D0 pp 2010 8-16 0.5 thr"); fmeson=0; fstrmeson="Dzero"; fstrptAss="ptAsMore05"; fstrptD="Dpt8to16"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS, -5% 10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.05); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.10); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.05); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.05); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } //-------------------------------------------------- void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPP2010DstarLowPtAss05(){ Printf("Setting uncertainties for Dstar pp 2010, 30.5 GeV/c "); fmeson=1; fstrmeson="Dstar"; fstrptAss="ptAsMore05"; fstrptD="Dpt3to5"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS, -5% 10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.05); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.10); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.05); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.05); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.08); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPP2010DstarMidPtAss05(){ Printf("Setting uncertainties for Dstar pp 2010, 50.5 GeV/c "); fmeson=1; fstrmeson="Dstar"; fstrptAss="ptAsMore05"; fstrptD="Dpt5to8"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS/ -5% 10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.05); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.10); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.05); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.05); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.0); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPP2010DstarHighPtAss05(){ Printf("Setting uncertainties for Dstar pp 2010, 80.5 GeV/c "); fmeson=1; fstrmeson="Dstar"; fstrptAss="ptAsMore05"; fstrptD="Dpt8to16"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.12); } // check those values fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.12); // check this one in particular } // MC CORRECTIONS -5% +10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.05); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.10); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.05); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.05); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPP2010DplusLowPtAss05(){ Printf("Setting uncertainties for Dplus pp 2010, 30.5 GeV/c "); fmeson=2; fstrmeson="Dplus"; fstrptAss="ptAsMore05"; fstrptD="Dpt3to5"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS ( associatate track efficiency): // -5% +10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.05); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.10); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.05); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.05); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.0); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ // x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPP2010DplusMidPtAss05(){ Printf("TEMPORARY VALUES (PP 2010 ass 03)"); Printf("Setting uncertainties for Dstar pp 2010, 50.5 GeV/c "); fmeson=2; fstrmeson="Dplus"; fstrptAss="ptAsMore05"; fstrptD="Dpt5to8"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS: -5% +10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.05); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.10); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.05); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.05); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.0); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPP2010DplusHighPtAss05(){ Printf("TEMPORARY VALUES (PP 2010 ass 03)"); Printf("Setting uncertainties for Dstar pp 2010, 80.5 GeV/c "); fmeson=2; fstrmeson="Dplus"; fstrptAss="ptAsMore05"; fstrptD="Dpt8to16"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS, -5% 10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.05); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.10); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.05); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.05); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.0); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } // pt(assoc)> 1 GeV/c void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPP2010DzeroLowPtAss1(){ Printf("Setting uncertainties for Dzero pp 2010, 31 GeV/c "); fmeson=0; fstrmeson="Dzero"; fstrptAss="ptAsMore1"; fstrptD="Dpt3to5"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS ( associatate track efficiency): // -5% +10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.05); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.10); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.05); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.05); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ // x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPP2010DzeroMidPtAss1(){ Printf("Setting uncertainties for Dzero pp 2010, 51 GeV/c "); fmeson=0; fstrmeson="Dzero"; fstrptAss="ptAsMore1"; fstrptD="Dpt5to8"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS: -5% +10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.05); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.10); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.05); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.05); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPP2010DzeroHighPtAss1(){ Printf("Setting uncertainties for Dzero pp 2010, 81 GeV/c "); fmeson=0; fstrmeson="Dzero"; fstrptAss="ptAsMore1"; fstrptD="Dpt8to16"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS, -5% 10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.05); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.10); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.05); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.05); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } //-------------------------------------------------- void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPP2010DstarLowPtAss1(){ Printf("TEMPORARY VALUES (PP 2010 ass 03)"); Printf("Setting uncertainties for Dstar pp 2010, 31 GeV/c "); fmeson=1; fstrmeson="Dstar"; fstrptAss="ptAsMore1"; fstrptD="Dpt3to5"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS, -5% 10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.05); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.10); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.05); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.05); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.08); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPP2010DstarMidPtAss1(){ Printf("Setting uncertainties for Dstar pp 2010, 51 GeV/c "); fmeson=1; fstrmeson="Dstar"; fstrptAss="ptAsMore1"; fstrptD="Dpt5to8"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS/ -5% 10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.05); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.10); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.05); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.05); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.08); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPP2010DstarHighPtAss1(){ Printf("Setting uncertainties for Dstar pp 2010, 81 GeV/c "); fmeson=1; fstrmeson="Dstar"; fstrptAss="ptAsMore1"; fstrptD="Dpt8to16"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.12); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.12); } // MC CORRECTIONS -5% +10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.05); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.10); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.05); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.05); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.08); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPP2010DplusLowPtAss1(){ Printf("Setting uncertainties for Dplus pp 2010, 31 GeV/c "); fmeson=2; fstrmeson="Dplus"; fstrptAss="ptAsMore1"; fstrptD="Dpt3to5"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS ( associatate track efficiency): // -5% +10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.05); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.10); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.05); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.05); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.0); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ // x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPP2010DplusMidPtAss1(){ Printf("Setting uncertainties for Dplus pp 2010, 51 GeV/c "); fmeson=2; fstrmeson="Dplus"; fstrptAss="ptAsMore1"; fstrptD="Dpt5to8"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS: -5% +10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.05); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.10); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.05); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.05); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.0); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPP2010DplusHighPtAss1(){ Printf("Setting uncertainties for Dplus pp 2010, 81 GeV/c "); fmeson=2; fstrmeson="Dplus"; fstrptAss="ptAsMore1"; fstrptD="Dpt8to16"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS, -5% 10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.05); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.10); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.05); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.05); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.0); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } //////////////////////////////////////////////////////////////////////////////////////////////////////// ///// ///// METHODS WITH UNCERTAINTIES: pPb 2013 ///// //////////////////////////////////////////////////////////////////////////////////////////////////////// // pt assoc > 0.3 GeV/c void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPPb2013DzeroLowPtAss03(){ Printf("Setting uncertainties for Dzero pPb 2013, 30.3 GeV/c "); fmeson=0; fstrmeson="Dzero"; fstrptAss="ptAsMore03"; fstrptD="Dpt3to5"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS ( associatate track efficiency): // -5% +10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.04); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.04); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.035); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.035); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ // x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.08); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPPb2013DzeroMidPtAss03(){ Printf("Setting uncertainties for Dzero pPb 2013, 50.3 GeV/c "); fmeson=0; fstrmeson="Dzero"; fstrptAss="ptAsMore03"; fstrptD="Dpt5to8"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS: -5% +10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.04); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.04); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.035); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.035); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.08); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPPb2013DzeroHighPtAss03(){ Printf("Setting uncertainties for Dzero pPb 2013, 80.3 GeV/c "); fmeson=0; fstrmeson="Dzero"; fstrptAss="ptAsMore03"; fstrptD="Dpt8to16"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS, -5% 10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.04); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.04); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.035); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.035); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.08); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } //-------------------------------------------------- void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPPb2013DstarLowPtAss03(){ Printf("Setting uncertainties for Dstar pPb 2013, 30.3 GeV/c "); fmeson=1; fstrmeson="Dstar"; fstrptAss="ptAsMore03"; fstrptD="Dpt3to5"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS, -5% 10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.04); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.04); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.035); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.035); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.08); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPPb2013DstarMidPtAss03(){ Printf("Setting uncertainties for Dstar pPb 2013, 50.3 GeV/c "); fmeson=1; fstrmeson="Dstar"; fstrptAss="ptAsMore03"; fstrptD="Dpt5to8"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.04); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.04); } // MC CORRECTIONS/ -5% 10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.04); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.04); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.04); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.04); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.035); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.035); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.0); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.08); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPPb2013DstarHighPtAss03(){ Printf("Setting uncertainties for Dstar pPb 2013, 80.3 GeV/c "); fmeson=1; fstrmeson="Dstar"; fstrptAss="ptAsMore03"; fstrptD="Dpt8to16"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS -5% +10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.04); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.04); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.08); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.08); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.035); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.035); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.0); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.08); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPPb2013DplusLowPtAss03(){ Printf("Setting uncertainties for Dplus pPb 2013, 30.3 GeV/c "); fmeson=2; fstrmeson="Dplus"; fstrptAss="ptAsMore03"; fstrptD="Dpt3to5"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.1); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.1); } // MC CORRECTIONS ( associatate track efficiency): // -5% +10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.04); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.04); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.1); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.1); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.035); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.035); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.0); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ // x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.08); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPPb2013DplusMidPtAss03(){ Printf("Setting uncertainties for Dplus pPb 2013, 50.3 GeV/c "); fmeson=2; fstrmeson="Dplus"; fstrptAss="ptAsMore03"; fstrptD="Dpt5to8"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.1); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.1); } // MC CORRECTIONS: -5% +10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.04); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.04); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.1); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.1); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.035); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.035); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.0); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.08); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPPb2013DplusHighPtAss03(){ Printf("Setting uncertainties for Dplus pPb 2013, 80.3 GeV/c "); fmeson=2; fstrmeson="Dplus"; fstrptAss="ptAsMore03"; fstrptD="Dpt8to16"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.1); } // MC CORRECTIONS, -5% 10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.04); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.04); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.1); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.1); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.035); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.035); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.0); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.08); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } //////// HIGHER PT ASS THRESHOLDS void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPPb2013DzeroLowPtAss05(){ Printf("Setting uncertainties for Dzero pPb 2013, 30.5 GeV/c "); fmeson=0; fstrmeson="Dzero"; fstrptAss="ptAsMore05"; fstrptD="Dpt3to5"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS ( associatate track efficiency): // -5% +10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.04); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.04); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.035); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.035); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ // x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.07); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPPb2013DzeroMidPtAss05(){ Printf("Setting uncertainties for Dzero pPb 2013, 50.5 GeV/c "); fmeson=0; fstrmeson="Dzero"; fstrptAss="ptAsMore05"; fstrptD="Dpt5to8"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS: -5% +10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.04); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.04); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.035); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.035); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.07); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPPb2013DzeroHighPtAss05(){ Printf("Setting uncertainties for Dzero pPb 2013, 80.5 GeV/c "); fmeson=0; fstrmeson="Dzero"; fstrptAss="ptAsMore05"; fstrptD="Dpt8to16"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS, -5% 10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.04); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.04); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.035); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.035); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.07); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } //-------------------------------------------------- void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPPb2013DstarLowPtAss05(){ Printf("Setting uncertainties for Dstar pPb 2013, 30.5 GeV/c "); fmeson=1; fstrmeson="Dstar"; fstrptAss="ptAsMore05"; fstrptD="Dpt3to5"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.07); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.07); } // MC CORRECTIONS, -5% 10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.04); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.04); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.035); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.035); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.0); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.7); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPPb2013DstarMidPtAss05(){ Printf("Setting uncertainties for Dstar pPb 2013, 50.5 GeV/c "); fmeson=1; fstrmeson="Dstar"; fstrptAss="ptAsMore05"; fstrptD="Dpt5to8"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS/ -5% 10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.04); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.04); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.035); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.035); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.0); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.07); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPPb2013DstarHighPtAss05(){ Printf("Setting uncertainties for Dstar pPb 2013, 80.5 GeV/c "); fmeson=1; fstrmeson="Dstar"; fstrptAss="ptAsMore05"; fstrptD="Dpt8to16"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS -5% +10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.04); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.04); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.08); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.08); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.035); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.035); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.0); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.07); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPPb2013DplusLowPtAss05(){ Printf("Setting uncertainties for Dplus pPb 2013, 30.5 GeV/c "); fmeson=2; fstrmeson="Dplus"; fstrptAss="ptAsMore05"; fstrptD="Dpt3to5"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.1); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.1); } // MC CORRECTIONS ( associatate track efficiency): // -5% +10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.04); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.04); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.1); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.1); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.035); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.035); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.0); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ // x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.06); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPPb2013DplusMidPtAss05(){ Printf("Setting uncertainties for Dplus pPb 2013, 50.5 GeV/c "); fmeson=2; fstrmeson="Dplus"; fstrptAss="ptAsMore05"; fstrptD="Dpt5to8"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.1); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.1); } // MC CORRECTIONS: -5% +10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.04); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.04); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.1); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.1); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.035); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.035); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.0); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.06); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPPb2013DplusHighPtAss05(){ Printf("Setting uncertainties for Dplus pPb 2013, 80.5 GeV/c "); fmeson=2; fstrmeson="Dplus"; fstrptAss="ptAsMore05"; fstrptD="Dpt8to16"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.1); } // MC CORRECTIONS, -5% 10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.04); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.04); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.1); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.1); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.035); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.035); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.0); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.06); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } // pt(assoc)> 1 GeV/c void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPPb2013DzeroLowPtAss1(){ Printf("Setting uncertainties for Dzero pPb 2013, 31 GeV/c "); fmeson=0; fstrmeson="Dzero"; fstrptAss="ptAsMore1"; fstrptD="Dpt3to5"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS ( associatate track efficiency): // -5% +10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.04); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.04); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.035); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.035); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ // x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.05); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPPb2013DzeroMidPtAss1(){ Printf("Setting uncertainties for Dzero pPb 2013, 51 GeV/c "); fmeson=0; fstrmeson="Dzero"; fstrptAss="ptAsMore1"; fstrptD="Dpt5to8"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS: -5% +10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.04); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.04); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.035); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.035); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.05); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPPb2013DzeroHighPtAss1(){ Printf("Setting uncertainties for Dzero pPb 2013, 81 GeV/c "); fmeson=0; fstrmeson="Dzero"; fstrptAss="ptAsMore1"; fstrptD="Dpt8to16"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS, -5% 10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.04); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.04); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.035); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.035); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.05); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } //-------------------------------------------------- void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPPb2013DstarLowPtAss1(){ Printf("Setting uncertainties for Dstar pPb 2013, 31 GeV/c "); fmeson=1; fstrmeson="Dstar"; fstrptAss="ptAsMore1"; fstrptD="Dpt3to5"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.08); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.08); } // MC CORRECTIONS, -5% 10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.04); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.04); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.035); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.035); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.0); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.05); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPPb2013DstarMidPtAss1(){ Printf("Setting uncertainties for Dstar pPb 2013, 51 GeV/c "); fmeson=1; fstrmeson="Dstar"; fstrptAss="ptAsMore1"; fstrptD="Dpt5to8"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.06); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.06); } // MC CORRECTIONS/ -5% 10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.04); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.04); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.05); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.05); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.035); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.035); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.05); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPPb2013DstarHighPtAss1(){ Printf("Setting uncertainties for Dstar pPb 2013, 81 GeV/c "); fmeson=1; fstrmeson="Dstar"; fstrptAss="ptAsMore1"; fstrptD="Dpt8to16"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.05); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.05); } // MC CORRECTIONS -5% +10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.04); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.04); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.08); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.08); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.035); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.035); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.05); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPPb2013DplusLowPtAss1(){ Printf("Setting uncertainties for Dplus pPb 2013, 31 GeV/c "); fmeson=2; fstrmeson="Dplus"; fstrptAss="ptAsMore1"; fstrptD="Dpt3to5"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.1); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.1); } // MC CORRECTIONS ( associatate track efficiency): // -5% +10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.04); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.04); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.1); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.1); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.035); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.035); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.0); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ // x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.05); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPPb2013DplusMidPtAss1(){ Printf("Setting uncertainties for Dplus pPb 2013, 51 GeV/c "); fmeson=2; fstrmeson="Dplus"; fstrptAss="ptAsMore1"; fstrptD="Dpt5to8"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.1); } fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.1); } // MC CORRECTIONS: -5% +10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.04); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.04); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.1); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.1); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.035); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.035); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.0); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.05); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } } void AliHFDhadronCorrSystUnc::InitStandardUncertaintiesPPb2013DplusHighPtAss1(){ Printf("Setting uncertainties for Dplus pPb 2013, 81 GeV/c "); fmeson=2; fstrmeson="Dplus"; fstrptAss="ptAsMore1"; fstrptD="Dpt8to16"; if(!fhDeltaPhiTemplate){ fhDeltaPhiTemplate=new TH1D("fhDeltaPhiTemplate","fhDeltaPhiTemplate",32,-TMath::Pi()/2.,3./2.*TMath::Pi()); } Double_t x; // D MESON YIELD EXTRACTION (->NORMALIZATION): relative uncertainty is constant fhYieldExtraction=(TH1D*)fhDeltaPhiTemplate->Clone("fhYieldExtraction"); for(Int_t j=1;j<=fhYieldExtraction->GetNbinsX();j++){ fhYieldExtraction->SetBinContent(j,0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMin"); for(Int_t j=1;j<=fhBackSubtractionMin->GetNbinsX();j++){ fhBackSubtractionMin->SetBinContent(j,-0.1); } // Background D MESON candidate subtraction (side-band variations, etc.) fhBackSubtractionMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBackSubtractionMax"); for(Int_t j=1;j<=fhBackSubtractionMax->GetNbinsX();j++){ fhBackSubtractionMax->SetBinContent(j,0.1); } // MC CORRECTIONS, -5% 10% for assoc track eff fhMCcorrectionsMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMin"); for(Int_t j=1;j<=fhMCcorrectionsMin->GetNbinsX();j++){ fhMCcorrectionsMin->SetBinContent(j,-0.04); } fhMCcorrectionsMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCcorrectionsMax"); for(Int_t j=1;j<=fhMCcorrectionsMax->GetNbinsX();j++){ fhMCcorrectionsMax->SetBinContent(j,0.04); } // MC D EFF CORRECTION fhMCDefficiencyMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMin"); for(Int_t j=1;j<=fhMCDefficiencyMin->GetNbinsX();j++){ fhMCDefficiencyMin->SetBinContent(j,-0.1); } fhMCDefficiencyMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCDefficiencyMax"); for(Int_t j=1;j<=fhMCDefficiencyMax->GetNbinsX();j++){ fhMCDefficiencyMax->SetBinContent(j,0.1); } // Contamination from secondary tracks fhSecContaminationMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMin"); for(Int_t j=1;j<=fhSecContaminationMin->GetNbinsX();j++){ fhSecContaminationMin->SetBinContent(j,-0.035); } fhSecContaminationMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhSecContaminationMax"); for(Int_t j=1;j<=fhSecContaminationMax->GetNbinsX();j++){ fhSecContaminationMax->SetBinContent(j,0.035); } // MC CLOSURETEST (D meson efficiency) fhMCclosureTestMin=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMin"); for(Int_t j=1;j<=fhMCclosureTestMin->GetNbinsX();j++){ x=fhMCclosureTestMin->GetBinLowEdge(j); fhMCclosureTestMin->SetBinContent(j,-0.0); if(-0.4SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } else if(-0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } else if(-0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.02); } else if(0.1SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.015); } if(0.2SetBinContent(j,fhMCclosureTestMin->GetBinContent(j)-0.01); } } fhMCclosureTestMax=(TH1D*)fhDeltaPhiTemplate->Clone("fhMCclosureTestMax"); for(Int_t j=1;j<=fhMCclosureTestMax->GetNbinsX();j++){ x=fhMCclosureTestMax->GetBinLowEdge(j); fhMCclosureTestMax->SetBinContent(j,0.05); // if(-0.4SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhMCclosureTestMax->GetBinContent(j)-0.04); // } } // Feed-down fhBeautyFDmin=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmin"); for(Int_t j=1;j<=fhBeautyFDmin->GetNbinsX();j++){ x=fhBeautyFDmin->GetBinLowEdge(j); fhBeautyFDmin->SetBinContent(j,-0.05); // if(-0.4SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmin->GetBinContent(j)-0.04); // } } fhBeautyFDmax=(TH1D*)fhDeltaPhiTemplate->Clone("fhBeautyFDmax"); for(Int_t j=1;j<=fhBeautyFDmax->GetNbinsX();j++){ x=fhBeautyFDmax->GetBinLowEdge(j); fhBeautyFDmax->SetBinContent(j,0.03); // if(-0.4SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // else if(-0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.08); // } // else if(0.1SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.06); // } // if(0.2SetBinContent(j,fhBeautyFDmax->GetBinContent(j)+0.04); // } } }