fh3InvMassEtaTrackPtK0s = new TH3F("fh3InvMassEtaTrackPtK0s","#eta; invMass (GeV/{#it{c}}^{2}); #it{p}_{T} (GeV/#it{c})", 200, -1., 1., 400, 0.3, 0.7, 140, 0., 14.);
fh3InvMassEtaTrackPtLa = new TH3F("fh3InvMassEtaTrackPtLa", "#eta; invMass (GeV/{#it{c}}^{2}; #it{p}_{T} (GeV/#it{c}))", 200, -1., 1., 200, 1.05, 1.25, 140, 0., 14.);
fh3InvMassEtaTrackPtALa = new TH3F("fh3InvMassEtaTrackPtALa","#eta; invMass (GeV/#it{c}^{2}); #it{p}_{T} (GeV/#it{c})", 200, -1., 1., 200, 1.05, 1.25, 140, 0., 14.);
- fh3IMK0PerpCone = new TH3F("fh3IMK0PerpCone","{K_{0}}^{s} content in perpendicular cone",39,5.,200.,400,0.3,0.7, 200,0.,20.);
- fh3IMLaPerpCone = new TH3F("fh3IMLaPerpCone","#Lambda content in perpendicular cone",39,5.,200., 200,1.05,1.25, 200,0.,20.);
- fh3IMALaPerpCone = new TH3F("fh3IMALaPerpCone","#Antilambda content in perpendicular cone",39,5.,200.,200,1.05,1.25, 200,0.,20.);
- fh3IMK0MedianCone = new TH3F("fh3IMK0MedianCone","{K_{0}}^{s} content in median cluster cone",39,5.,200.,400,0.3,0.7, 200,0.,20.);
- fh3IMLaMedianCone = new TH3F("fh3IMLaMedianCone","#Lambda content in median cluster cone",39,5.,200., 200,1.05,1.25, 200,0.,20.);
- fh3IMALaMedianCone = new TH3F("fh3IMALaMedianCone","#Antilambda content in median cluster cone",39,5.,200., 200,1.05,1.25, 200,0.,20.);
+ fh3IMK0PerpCone = new TH3F("fh3IMK0PerpCone","{K_{0}}^{s} content in perpendicular cone",19,5.,100.,400,0.3,0.7, 200,0.,20.);
+ fh3IMLaPerpCone = new TH3F("fh3IMLaPerpCone","#Lambda content in perpendicular cone",19,5.,100., 200,1.05,1.25, 200,0.,20.);
+ fh3IMALaPerpCone = new TH3F("fh3IMALaPerpCone","#Antilambda content in perpendicular cone",19,5.,100.,200,1.05,1.25, 200,0.,20.);
+ fh3IMK0MedianCone = new TH3F("fh3IMK0MedianCone","{K_{0}}^{s} content in median cluster cone",19,5.,100.,400,0.3,0.7, 200,0.,20.);
+ fh3IMLaMedianCone = new TH3F("fh3IMLaMedianCone","#Lambda content in median cluster cone",19,5.,100., 200,1.05,1.25, 200,0.,20.);
+ fh3IMALaMedianCone = new TH3F("fh3IMALaMedianCone","#Antilambda content in median cluster cone",19,5.,100., 200,1.05,1.25, 200,0.,20.);
fh1MedianEta = new TH1F("fh1MedianEta","Median cluster axis ;#eta",200,-1.,1.);
- fh1JetPtMedian = new TH1F("fh1JetPtMedian","Median cluster jet it{p}_{T} ;#GeV/it{c}",39,5.,200.);
+ fh1JetPtMedian = new TH1F("fh1JetPtMedian","Median cluster jet it{p}_{T} ;#GeV/it{c}",19,5.,100.);
fh1TrackMultCone = new TH1F("fh1TrackMultCone","track multiplicity in jet cone; number of tracks",200,0.,500.);
- fh2TrackMultCone = new TH2F("fh2TrackMultCone","track multiplicity in jet cone vs. jet momentum; number of tracks; jet it{p}_{T} (GeV/it{c})",200,0.,200.,39,5.,200.);
+ fh2TrackMultCone = new TH2F("fh2TrackMultCone","track multiplicity in jet cone vs. jet momentum; number of tracks; jet it{p}_{T} (GeV/it{c})",200,0.,200.,19,5.,100.);
fFFHistosRecCuts = new AliFragFuncHistos("RecCuts", fFFNBinsJetPt, fFFJetPtMin, fFFJetPtMax,
fFFNBinsPt, fFFPtMin, fFFPtMax,
// MC histograms
//***************
- fh2MCgenK0Cone = new TH2F("fh2MCgenK0Cone", "MC gen {K^{0}}^{s} #it{p}_{T} in cone around rec jet axis versus jet #it{p}_{T}; jet #it{p}_{T}",39,5.,200.,200,0.,20.);
- fh2MCgenLaCone = new TH2F("fh2MCgenLaCone", "MC gen #Lambda #it{p}_{T} in cone around rec jet axis versus jet #it{p}_{T} ; jet #it{p}_{T}",39,5.,200.,200,0.,20.);
- fh2MCgenALaCone = new TH2F("fh2MCgenALaCone", "MC gen #Antilambda #it{p}_{T} in cone around rec jet axis versus jet #it{p}_{T}; jet #it{p}_{T}",39,5.,200.,200,0.,20.);
+ fh2MCgenK0Cone = new TH2F("fh2MCgenK0Cone", "MC gen {K^{0}}^{s} #it{p}_{T} in cone around rec jet axis versus jet #it{p}_{T}; jet #it{p}_{T}",19,5.,100.,200,0.,20.);
+ fh2MCgenLaCone = new TH2F("fh2MCgenLaCone", "MC gen #Lambda #it{p}_{T} in cone around rec jet axis versus jet #it{p}_{T} ; jet #it{p}_{T}",19,5.,100.,200,0.,20.);
+ fh2MCgenALaCone = new TH2F("fh2MCgenALaCone", "MC gen #Antilambda #it{p}_{T} in cone around rec jet axis versus jet #it{p}_{T}; jet #it{p}_{T}",19,5.,100.,200,0.,20.);
fh2MCgenK0Cone->GetYaxis()->SetTitle("MC gen K^{0}}^{s} #it{p}_{T}");
fh2MCgenLaCone->GetYaxis()->SetTitle("MC gen #Lambda #it{p}_{T}");
fh2MCgenALaCone->GetYaxis()->SetTitle("MC gen #Antilambda #it{p}_{T}");
- fh2MCEtagenK0Cone = new TH2F("fh2MCEtagenK0Cone","MC gen {K^{0}}^{s} #it{p}_{T} #eta distribution in jet cone;#eta",39,5.,200.,200,-1.,1.);
- fh2MCEtagenLaCone = new TH2F("fh2MCEtagenLaCone","MC gen #Lambda #it{p}_{T} #eta distribution in jet cone;#eta",39,5.,200.,200,-1.,1.);
- fh2MCEtagenALaCone = new TH2F("fh2MCEtagenALaCone","MC gen #Antilambda #it{p}_{T} #eta distribution in jet cone;#eta",39,5.,200.,200,-1.,1.);
- fh1FFIMK0ConeSmear = new TH1F("fh1FFIMK0ConeSmear","Smeared jet pt study for K0s-in-cone-jets; smeared jet #it{p}_{T}", 39,5.,200.);
- fh1FFIMLaConeSmear = new TH1F("fh1FFIMLaConeSmear","Smeared jet pt study for La-in-cone-jets; smeared jet #it{p}_{T}", 39,5.,200.);
- fh1FFIMALaConeSmear = new TH1F("fh1FFIMALaConeSmear","Smeared jet pt study for ALa-in-cone-jets; smeared jet #it{p}_{T}", 39,5.,200.);
+ fh2MCEtagenK0Cone = new TH2F("fh2MCEtagenK0Cone","MC gen {K^{0}}^{s} #it{p}_{T} #eta distribution in jet cone;#eta",19,5.,100.,200,-1.,1.);
+ fh2MCEtagenLaCone = new TH2F("fh2MCEtagenLaCone","MC gen #Lambda #it{p}_{T} #eta distribution in jet cone;#eta",19,5.,100.,200,-1.,1.);
+ fh2MCEtagenALaCone = new TH2F("fh2MCEtagenALaCone","MC gen #Antilambda #it{p}_{T} #eta distribution in jet cone;#eta",19,5.,100.,200,-1.,1.);
+ fh1FFIMK0ConeSmear = new TH1F("fh1FFIMK0ConeSmear","Smeared jet pt study for K0s-in-cone-jets; smeared jet #it{p}_{T}", 19,5.,100.);
+ fh1FFIMLaConeSmear = new TH1F("fh1FFIMLaConeSmear","Smeared jet pt study for La-in-cone-jets; smeared jet #it{p}_{T}", 19,5.,100.);
+ fh1FFIMALaConeSmear = new TH1F("fh1FFIMALaConeSmear","Smeared jet pt study for ALa-in-cone-jets; smeared jet #it{p}_{T}", 19,5.,100.);
- fh3MCrecK0Cone = new TH3F("fh3MCrecK0Cone", "MC rec {K^{0}}^{s} #it{p}_{T} in cone around jet axis matching MC gen particle; jet #it{p}_{T}; inv mass (GeV/#it{c}^{2};#it{p}_{T}",39,5.,200., 400,0.3,0.7, 200,0.,20.);
- fh3MCrecLaCone = new TH3F("fh3MCrecLaCone", "MC rec {#Lambda #it{p}_{T} in cone around jet axis matching MC gen particle; jet #it{p}_{T}; inv mass (GeV/#it{c}^{2});#it{p}_{T}",39,5.,200., 200,1.05,1.25, 200,0.,20.);
- fh3MCrecALaCone = new TH3F("fh3MCrecALaCone", "MC rec {#Antilambda #it{p}_{T} in cone around jet axis matching MC gen particle; jet #it{p}_{T}; inv mass (GeV/#it{c}^{2});#it{p}_{T}",39,5.,200.,200,1.05,1.25, 200,0.,20.);
- fh3MCrecK0ConeSmear = new TH3F("fh3MCrecK0ConeSmear", "MC rec {K^{0}}^{s} #it{p}_{T} in cone around jet axis matching MC gen particle, with jet p_{T} smeared; jet #it{p}_{T}; inv mass (GeV/#it{c}^{2};#it{p}_{T}",39,5.,200., 400,0.3,0.7, 200,0.,20.);
- fh3MCrecLaConeSmear = new TH3F("fh3MCrecLaConeSmear", "MC rec {#Lambda #it{p}_{T} in cone around jet axis matching MC gen particle, with jet p_{T} smeared; jet #it{p}_{T}; inv mass (GeV/#it{c}^{2});#it{p}_{T}",39,5.,200., 200,1.05,1.25, 200,0.,20.);
- fh3MCrecALaConeSmear = new TH3F("fh3MCrecALaConeSmear", "MC rec {#Antilambda #it{p}_{T} in cone around jet axis matching MC gen particle, with jet p_{T} smeared; jet #it{p}_{T}; inv mass (GeV/#it{c}^{2});#it{p}_{T}",39,5.,200.,200,1.05,1.25, 200,0.,20.);
- fh3SecContinCone = new TH3F("fh3SecContinCone","secondary contamination of jet cones; jet #it{p}_{T}; track #it{p}_{T}, #eta",39,5.,200.,200,0.,20.,200,-1.,1.);
- fh3StrContinCone = new TH3F("fh3StrContinCone","strange particle contamination of jet cones; jet #it{p}_{T}; track #it{p}_{T}, #eta",39,5.,200.,200,0.,20.,200,-1.,1.);
+ fh3MCrecK0Cone = new TH3F("fh3MCrecK0Cone", "MC rec {K^{0}}^{s} #it{p}_{T} in cone around jet axis matching MC gen particle; jet #it{p}_{T}; inv mass (GeV/#it{c}^{2};#it{p}_{T}",19,5.,100., 400,0.3,0.7, 200,0.,20.);
+ fh3MCrecLaCone = new TH3F("fh3MCrecLaCone", "MC rec {#Lambda #it{p}_{T} in cone around jet axis matching MC gen particle; jet #it{p}_{T}; inv mass (GeV/#it{c}^{2});#it{p}_{T}",19,5.,100., 200,1.05,1.25, 200,0.,20.);
+ fh3MCrecALaCone = new TH3F("fh3MCrecALaCone", "MC rec {#Antilambda #it{p}_{T} in cone around jet axis matching MC gen particle; jet #it{p}_{T}; inv mass (GeV/#it{c}^{2});#it{p}_{T}",19,5.,100.,200,1.05,1.25, 200,0.,20.);
+ fh3MCrecK0ConeSmear = new TH3F("fh3MCrecK0ConeSmear", "MC rec {K^{0}}^{s} #it{p}_{T} in cone around jet axis matching MC gen particle, with jet p_{T} smeared; jet #it{p}_{T}; inv mass (GeV/#it{c}^{2};#it{p}_{T}",19,5.,100., 400,0.3,0.7, 200,0.,20.);
+ fh3MCrecLaConeSmear = new TH3F("fh3MCrecLaConeSmear", "MC rec {#Lambda #it{p}_{T} in cone around jet axis matching MC gen particle, with jet p_{T} smeared; jet #it{p}_{T}; inv mass (GeV/#it{c}^{2});#it{p}_{T}",19,5.,100., 200,1.05,1.25, 200,0.,20.);
+ fh3MCrecALaConeSmear = new TH3F("fh3MCrecALaConeSmear", "MC rec {#Antilambda #it{p}_{T} in cone around jet axis matching MC gen particle, with jet p_{T} smeared; jet #it{p}_{T}; inv mass (GeV/#it{c}^{2});#it{p}_{T}",19,5.,100.,200,1.05,1.25, 200,0.,20.);
+ fh3SecContinCone = new TH3F("fh3SecContinCone","secondary contamination of jet cones; jet #it{p}_{T}; track #it{p}_{T}, #eta",19,5.,100.,200,0.,20.,200,-1.,1.);
+ fh3StrContinCone = new TH3F("fh3StrContinCone","strange particle contamination of jet cones; jet #it{p}_{T}; track #it{p}_{T}, #eta",19,5.,100.,200,0.,20.,200,-1.,1.);
fh1MCMultiplicityPrimary = new TH1F("fh1MCMultiplicityPrimary", "MC Primary Particles;NPrimary;Count", 201, -0.5, 200.5);
fh1MCMultiplicityTracks = new TH1F("h1MCMultiplicityTracks", "MC Tracks;Ntracks;Count", 201, -0.5, 200.5);