Multiplicity Ratio from Mixed Background
N.B 1. 'General' Event Mixing is used
2. Energy of the photon is > 0.15 GeV
All the bins up to pT2(z) = 6 are fitted with mixed shape, otherwise Pol2.
1D distributions
Fig.1 Multiplicity as a fnc of Z, pT2, Q2, Nu
2D distributions
R vs Z
Fig.2a R vs Z in bins of pT
Fig.2b R vs Z in bins of Q2
Fig.2c R vs Z in bins of V
R vs pT
Fig.3a R vs pT in bins of Z
Fig.3b R vs pT in bins of Q2
Fig.3c R vs pT in bins of V
R vs Q2(V)
Fig.4 R vs V in bins of Q2
3D distributions
Fig.5a R vs Z in bins of pT and V
Fig.5b R vs pT in bins of Z and V
Reference to Mass Fits illustrations
3D bins
Fig.6 Invariant mass in bins of Z,pT,V (corr. to Fig.5a,b) is
here
2D bins
Fig.7 Invariant mass in bins of Q2, V (corr. to Fig.4) is
here
Fig.7a Invariant mass in bins of z, pT2(corr. to Fig.2a,3a) is
here
Fig.7b Invariant mass in bins of z,Q2 (corr. to Fig.2a) is
here
Fig.7c Invariant mass in bins of z,V (corr. to Fig.2a) is
here
Fig.8a Invariant mass in bins of pT,Q2 (corr. to Fig.3b) is
here
Fig.8b Invariant mass in bins of pT,V (corr. to Fig.3c) is
here
1D bins
Fig.9a Invariant mass in bins of pT2 (corr. to Fig.1) is here
Fig.9b Invariant mass in bins of z (corr. to Fig.1) is here
Fig.9c Invariant mass in bins of Q2 (corr. to Fig.1) is here
Fig.9d Invariant mass in bins of Nu (corr. to Fig.1) is here