- TH2F *fh2JetCoreMethod3C60; //Energy fraction in the core C60 method 3
- TH2F *fh2JetCoreMethod3C10lead; //Energy fraction in the core C30 method 3
- TH2F *fh2JetCoreMethod3C20lead; //Energy fraction in the core C60 method 1
- TH2F *fh2JetCoreMethod3C30lead; //Energy fraction in the core C60 method 2
- TH2F *fh2JetCoreMethod3C60lead; //Energy fraction in the core C60 method 3
- TH2F *fh2JetCoreMethod3C10sublead; //Energy fraction in the core C30 method 3
- TH2F *fh2JetCoreMethod3C20sublead; //Energy fraction in the core C60 method 1
- TH2F *fh2JetCoreMethod3C30sublead; //Energy fraction in the core C60 method 2
- TH2F *fh2JetCoreMethod3C60sublead; //Energy fraction in the core C60 method 3
-
- TH2F *fh2SumPtInC10; //energy fraction in inner corona C10
- TH2F *fh2SumPtInC20; //energy fraction in inner corona C20
- TH2F *fh2SumPtInC30; //energy fraction in inner corona C30
- TH2F *fh2SumPtInC60; //energy fraction in inner corona C60
- TH2F *fh2SumPtInC10lead; //energy fraction in inner corona C10 leading
- TH2F *fh2SumPtInC20lead; //energy fraction in inner corona C20 leading
- TH2F *fh2SumPtInC30lead; //energy fraction in inner corona C30 leading
- TH2F *fh2SumPtInC60lead; //energy fraction in inner corona C60 leading
- TH2F *fh2SumPtInC10sublead; //energy fraction in inner corona C10 subleading
- TH2F *fh2SumPtInC20sublead; //energy fraction in inner corona C20 subleading
- TH2F *fh2SumPtInC30sublead; //energy fraction in inner corona C30 subleading
- TH2F *fh2SumPtInC60sublead; //energy fraction in inner corona C60 subleading
- TH2F *fh2SumPtOutC10; //energy fraction in outer corona C10
- TH2F *fh2SumPtOutC20; //energy fraction in outer corona C20
- TH2F *fh2SumPtOutC30; //energy fraction in outer corona C30
- TH2F *fh2SumPtOutC60; //energy fraction in outer corona C60
- TH2F *fh2SumPtOutC10lead; //energy fraction in outer corona C10 leading
- TH2F *fh2SumPtOutC20lead; //energy fraction in outer corona C20 leading
- TH2F *fh2SumPtOutC30lead; //energy fraction in outer corona C30 leading
- TH2F *fh2SumPtOutC60lead; //energy fraction in outer corona C60 leading
- TH2F *fh2SumPtOutC10sublead; //energy fraction in outer corona C10 subleading
- TH2F *fh2SumPtOutC20sublead; //energy fraction in outer corona C20 subleading
- TH2F *fh2SumPtOutC30sublead; //energy fraction in outer corona C30 subleading
- TH2F *fh2SumPtOutC60sublead; //energy fraction in outer corona C60 subleading
- TH2F *fh2SumPtInC10bkg; //expected from background inner C10
- TH2F *fh2SumPtInC20bkg; //expected from background inner C20
- TH2F *fh2SumPtInC30bkg; //expected from background inner C30
- TH2F *fh2SumPtInC60bkg; //expected from background inner C60
- TH2F *fh2SumPtInC10bkglead; //expected from background inner C10 lead
- TH2F *fh2SumPtInC20bkglead; //expected from background inner C20 lead
- TH2F *fh2SumPtInC30bkglead; //expected from background inner C30 lead
- TH2F *fh2SumPtInC60bkglead; //expected from background inner C60 lead
- TH2F *fh2SumPtInC10bkgsublead; //expected from background inner C10 sublead
- TH2F *fh2SumPtInC20bkgsublead; //expected from background inner C20 sublead
- TH2F *fh2SumPtInC30bkgsublead; //expected from background inner C30 sublead
- TH2F *fh2SumPtInC60bkgsublead; //expected from background inner C60 sublead
-
- TH2F *fh2SumPtOutC10bkg; //expected from background outer C10
- TH2F *fh2SumPtOutC20bkg; //expected from background outer C10
- TH2F *fh2SumPtOutC30bkg; //expected from background outer C10
- TH2F *fh2SumPtOutC60bkg; //expected from background outer C10
- TH2F *fh2SumPtOutC10bkglead; //expected from background outer C10 lead
- TH2F *fh2SumPtOutC20bkglead; //expected from background outer C10 lead
- TH2F *fh2SumPtOutC30bkglead; //expected from background outer C10 lead
- TH2F *fh2SumPtOutC60bkglead; //expected from background outer C10 lead
- TH2F *fh2SumPtOutC10bkgsublead; //expected from background outer C10 sublead
- TH2F *fh2SumPtOutC20bkgsublead; //expected from background outer C10 sublead
- TH2F *fh2SumPtOutC30bkgsublead; //expected from background outer C10 sublead
- TH2F *fh2SumPtOutC60bkgsublead; //expected from background outer C10 sublead
-
- TH2F* fh2DeltaRC10pt1; //Jet track R distance:C10 pt1
- TH2F* fh2DeltaRC20pt1; //C20 pt1
- TH2F* fh2DeltaRC30pt1; //C30 pt1
- TH2F* fh2DeltaRC60pt1; //C60 pt1
- TH2F* fh2DeltaRC10pt2; //C10 pt2
- TH2F* fh2DeltaRC20pt2; //C20 pt2
- TH2F* fh2DeltaRC30pt2; //C30 pt2
- TH2F* fh2DeltaRC60pt2; //C60 pt2
- TH2F* fh2DeltaRC10pt3; //C10 pt3
- TH2F* fh2DeltaRC20pt3; //C20 pt3
- TH2F* fh2DeltaRC30pt3; //C30 pt3
- TH2F* fh2DeltaRC60pt3; //C60 pt3
- TH2F* fh2DeltaRC10pt4; //C10 pt4
- TH2F* fh2DeltaRC20pt4; //C20 pt4
- TH2F* fh2DeltaRC30pt4; //C30 pt4
- TH2F* fh2DeltaRC60pt4; //C60 pt4
- TH2F* fh2DeltaEtaC10pt1; //The same but eta distance:C10 pt1
- TH2F* fh2DeltaEtaC20pt1; //C20 pt1
- TH2F* fh2DeltaEtaC30pt1; //C30 pt1
- TH2F* fh2DeltaEtaC60pt1; //C60 pt1
- TH2F* fh2DeltaEtaC10pt2; //C10 pt2
- TH2F* fh2DeltaEtaC20pt2; //C20 pt2
- TH2F* fh2DeltaEtaC30pt2; //C30 pt2
- TH2F* fh2DeltaEtaC60pt2; //C60 pt2
- TH2F* fh2DeltaEtaC10pt3; //C10 pt3
- TH2F* fh2DeltaEtaC20pt3; //C20 pt3
- TH2F* fh2DeltaEtaC30pt3; //C30 pt3
- TH2F* fh2DeltaEtaC60pt3; //C60 pt3
- TH2F* fh2DeltaEtaC10pt4; //C10 pt4
- TH2F* fh2DeltaEtaC20pt4; //C20 pt4
- TH2F* fh2DeltaEtaC30pt4; //C30 pt4
- TH2F* fh2DeltaEtaC60pt4; //C60 pt4
- TH2F* fh2DeltaPhiC10pt1; //The same but phi distance:C10 pt1
- TH2F* fh2DeltaPhiC20pt1; //C20 pt1
- TH2F* fh2DeltaPhiC30pt1; //C30 pt1
- TH2F* fh2DeltaPhiC60pt1; //C60 pt1
- TH2F* fh2DeltaPhiC10pt2; //C10 pt2
- TH2F* fh2DeltaPhiC20pt2; //C20 pt2
- TH2F* fh2DeltaPhiC30pt2; //C30 pt2
- TH2F* fh2DeltaPhiC60pt2; //C60 pt2
- TH2F* fh2DeltaPhiC10pt3; //C10 pt3
- TH2F* fh2DeltaPhiC20pt3; //C20 pt3
- TH2F* fh2DeltaPhiC30pt3; //C30 pt3
- TH2F* fh2DeltaPhiC60pt3; //C60 pt3
- TH2F* fh2DeltaPhiC10pt4; //C10 pt4
- TH2F* fh2DeltaPhiC20pt4; //C20 pt4
- TH2F* fh2DeltaPhiC30pt4; //C30 pt4
- TH2F* fh2DeltaPhiC60pt4; //C60 pt4
-
- TH2F* fh2DeltaRC10pt1lead; //Jet track R distance:C10 pt1
- TH2F* fh2DeltaRC20pt1lead; //C20 pt1
- TH2F* fh2DeltaRC30pt1lead; //C30 pt1
- TH2F* fh2DeltaRC60pt1lead; //C60 pt1
- TH2F* fh2DeltaRC10pt2lead; //C10 pt2
- TH2F* fh2DeltaRC20pt2lead; //C20 pt2
- TH2F* fh2DeltaRC30pt2lead; //C30 pt2
- TH2F* fh2DeltaRC60pt2lead; //C60 pt2
- TH2F* fh2DeltaRC10pt3lead; //C10 pt3
- TH2F* fh2DeltaRC20pt3lead; //C20 pt3
- TH2F* fh2DeltaRC30pt3lead; //C30 pt3
- TH2F* fh2DeltaRC60pt3lead; //C60 pt3
- TH2F* fh2DeltaRC10pt4lead; //C10 pt4
- TH2F* fh2DeltaRC20pt4lead; //C20 pt4
- TH2F* fh2DeltaRC30pt4lead; //C30 pt4
- TH2F* fh2DeltaRC60pt4lead; //C60 pt4
- TH2F* fh2DeltaEtaC10pt1lead; //The same but eta distance:C10 pt1
- TH2F* fh2DeltaEtaC20pt1lead; //C20 pt1
- TH2F* fh2DeltaEtaC30pt1lead; //C30 pt1
- TH2F* fh2DeltaEtaC60pt1lead; //C60 pt1
- TH2F* fh2DeltaEtaC10pt2lead; //C10 pt2
- TH2F* fh2DeltaEtaC20pt2lead; //C20 pt2
- TH2F* fh2DeltaEtaC30pt2lead; //C30 pt2
- TH2F* fh2DeltaEtaC60pt2lead; //C60 pt2
- TH2F* fh2DeltaEtaC10pt3lead; //C10 pt3
- TH2F* fh2DeltaEtaC20pt3lead; //C20 pt3
- TH2F* fh2DeltaEtaC30pt3lead; //C30 pt3
- TH2F* fh2DeltaEtaC60pt3lead; //C60 pt3
- TH2F* fh2DeltaEtaC10pt4lead; //C10 pt4
- TH2F* fh2DeltaEtaC20pt4lead; //C20 pt4
- TH2F* fh2DeltaEtaC30pt4lead; //C30 pt4
- TH2F* fh2DeltaEtaC60pt4lead; //C60 pt4
- TH2F* fh2DeltaPhiC10pt1lead; //The same but phi distance:C10 pt1
- TH2F* fh2DeltaPhiC20pt1lead; //C20 pt1
- TH2F* fh2DeltaPhiC30pt1lead; //C30 pt1
- TH2F* fh2DeltaPhiC60pt1lead; //C60 pt1
- TH2F* fh2DeltaPhiC10pt2lead; //C10 pt2
- TH2F* fh2DeltaPhiC20pt2lead; //C20 pt2
- TH2F* fh2DeltaPhiC30pt2lead; //C30 pt2
- TH2F* fh2DeltaPhiC60pt2lead; //C60 pt2
- TH2F* fh2DeltaPhiC10pt3lead; //C10 pt3
- TH2F* fh2DeltaPhiC20pt3lead; //C20 pt3
- TH2F* fh2DeltaPhiC30pt3lead; //C30 pt3
- TH2F* fh2DeltaPhiC60pt3lead; //C60 pt3
- TH2F* fh2DeltaPhiC10pt4lead; //C10 pt4
- TH2F* fh2DeltaPhiC20pt4lead; //C20 pt4
- TH2F* fh2DeltaPhiC30pt4lead; //C30 pt4
- TH2F* fh2DeltaPhiC60pt4lead; //C60 pt4
-
- TH2F* fh2DeltaRC10pt1sublead; //Jet track R distance:C10 pt1
- TH2F* fh2DeltaRC20pt1sublead; //C20 pt1
- TH2F* fh2DeltaRC30pt1sublead; //C30 pt1
- TH2F* fh2DeltaRC60pt1sublead; //C60 pt1
- TH2F* fh2DeltaRC10pt2sublead; //C10 pt2
- TH2F* fh2DeltaRC20pt2sublead; //C20 pt2
- TH2F* fh2DeltaRC30pt2sublead; //C30 pt2
- TH2F* fh2DeltaRC60pt2sublead; //C60 pt2
- TH2F* fh2DeltaRC10pt3sublead; //C10 pt3
- TH2F* fh2DeltaRC20pt3sublead; //C20 pt3
- TH2F* fh2DeltaRC30pt3sublead; //C30 pt3
- TH2F* fh2DeltaRC60pt3sublead; //C60 pt3
- TH2F* fh2DeltaRC10pt4sublead; //C10 pt4
- TH2F* fh2DeltaRC20pt4sublead; //C20 pt4
- TH2F* fh2DeltaRC30pt4sublead; //C30 pt4
- TH2F* fh2DeltaRC60pt4sublead; //C60 pt4
- TH2F* fh2DeltaEtaC10pt1sublead; //The same but eta distance:C10 pt1
- TH2F* fh2DeltaEtaC20pt1sublead; //C20 pt1
- TH2F* fh2DeltaEtaC30pt1sublead; //C30 pt1
- TH2F* fh2DeltaEtaC60pt1sublead; //C60 pt1
- TH2F* fh2DeltaEtaC10pt2sublead; //C10 pt2
- TH2F* fh2DeltaEtaC20pt2sublead; //C20 pt2
- TH2F* fh2DeltaEtaC30pt2sublead; //C30 pt2
- TH2F* fh2DeltaEtaC60pt2sublead; //C60 pt2
- TH2F* fh2DeltaEtaC10pt3sublead; //C10 pt3
- TH2F* fh2DeltaEtaC20pt3sublead; //C20 pt3
- TH2F* fh2DeltaEtaC30pt3sublead; //C30 pt3
- TH2F* fh2DeltaEtaC60pt3sublead; //C60 pt3
- TH2F* fh2DeltaEtaC10pt4sublead; //C10 pt4
- TH2F* fh2DeltaEtaC20pt4sublead; //C20 pt4
- TH2F* fh2DeltaEtaC30pt4sublead; //C30 pt4
- TH2F* fh2DeltaEtaC60pt4sublead; //C60 pt4
- TH2F* fh2DeltaPhiC10pt1sublead; //The same but phi distance:C10 pt1
- TH2F* fh2DeltaPhiC20pt1sublead; //C20 pt1
- TH2F* fh2DeltaPhiC30pt1sublead; //C30 pt1
- TH2F* fh2DeltaPhiC60pt1sublead; //C60 pt1
- TH2F* fh2DeltaPhiC10pt2sublead; //C10 pt2
- TH2F* fh2DeltaPhiC20pt2sublead; //C20 pt2
- TH2F* fh2DeltaPhiC30pt2sublead; //C30 pt2
- TH2F* fh2DeltaPhiC60pt2sublead; //C60 pt2
- TH2F* fh2DeltaPhiC10pt3sublead; //C10 pt3
- TH2F* fh2DeltaPhiC20pt3sublead; //C20 pt3
- TH2F* fh2DeltaPhiC30pt3sublead; //C30 pt3
- TH2F* fh2DeltaPhiC60pt3sublead; //C60 pt3
- TH2F* fh2DeltaPhiC10pt4sublead; //C10 pt4
- TH2F* fh2DeltaPhiC20pt4sublead; //C20 pt4
- TH2F* fh2DeltaPhiC30pt4sublead; //C30 pt4
- TH2F* fh2DeltaPhiC60pt4sublead; //C60 pt4
-
-
-
-
-
- TH2F* fh2AngStructpt1C10; //Average two particle correlation function:C10 pt1