diff --git a/analyses/pluginMC/MC_JETS.plot b/analyses/pluginMC/MC_JETS.plot --- a/analyses/pluginMC/MC_JETS.plot +++ b/analyses/pluginMC/MC_JETS.plot @@ -1,279 +1,279 @@ # BEGIN PLOT /MC_JETS/jets_dR_ Title=$\Delta R$ separation between jets LegendXPos=0.10 LegendYPos=0.5 # END PLOT # BEGIN PLOT /MC_JETS/jets_dR_12 XLabel=$\Delta{R}(\text{jet 1, jet 2})$ YLabel=$\text{d}\sigma/\text{d}\Delta{R}(\text{jet 1, jet 2})$ [pb] # END PLOT # BEGIN PLOT /MC_JETS/jets_dR_13 XLabel=$\Delta{R}(\text{jet 1, jet 3})$ YLabel=$\text{d}\sigma/\text{d}\Delta{R}(\text{jet 1, jet 3})$ [pb] # END PLOT # BEGIN PLOT /MC_JETS/jets_dR_23 XLabel=$\Delta{R}(\text{jet 2, jet 3})$ YLabel=$\text{d}\sigma/\text{d}\Delta{R}(\text{jet 2, jet 3})$ [pb] # END PLOT # BEGIN PLOT /MC_JETS/jets_deta_ Title=Pseudorapidity separation between jets LegendYPos=0.5 LegendXPos=0.30 # END PLOT # BEGIN PLOT /MC_JETS/jets_deta_12 XLabel=$\Delta\eta(\text{jet 1, jet 2})$ YLabel=$\text{d}\sigma/\text{d}\Delta\eta(\text{jet 1, jet 2})$ [pb] # END PLOT # BEGIN PLOT /MC_JETS/jets_deta_13 XLabel=$\Delta\eta(\text{jet 1, jet 3})$ YLabel=$\text{d}\sigma/\text{d}\Delta\eta(\text{jet 1, jet 3})$ [pb] # END PLOT # BEGIN PLOT /MC_JETS/jets_deta_23 XLabel=$\Delta\eta(\text{jet 2, jet 3})$ YLabel=$\text{d}\sigma/\text{d}\Delta\eta(\text{jet 2, jet 3})$ [pb] # END PLOT # BEGIN PLOT /MC_JETS/jets_dphi_ Title=Azimuthal separation between jets LegendXPos=0.1 # END PLOT # BEGIN PLOT /MC_JETS/jets_dphi_12 XLabel=$\Delta\phi(\text{jet 1, jet 2})$ YLabel=$\text{d}\sigma/\text{d}\Delta\phi(\text{jet 1, jet 2})$ [pb] # END PLOT # BEGIN PLOT /MC_JETS/jets_dphi_13 XLabel=$\Delta\phi(\text{jet 1, jet 3})$ YLabel=$\text{d}\sigma/\text{d}\Delta\phi(\text{jet 1, jet 3})$ [pb] # END PLOT # BEGIN PLOT /MC_JETS/jets_dphi_23 XLabel=$\Delta\phi(\text{jet 2, jet 3})$ YLabel=$\text{d}\sigma/\text{d}\Delta\phi(\text{jet 2, jet 3})$ [pb] # END PLOT # BEGIN PLOT /MC_JETS/jet_eta_1 Title=Pseudorapidity of leading jet XLabel=$\eta(\text{jet 1})$ YLabel=$\text{d}\sigma/\text{d}\eta(\text{jet 1})$ [pb] LegendYPos=0.5 LegendXPos=0.30 # END PLOT # BEGIN PLOT /MC_JETS/jet_eta_2 Title=Pseudorapidity of second jet XLabel=$\eta(\text{jet 2})$ YLabel=$\text{d}\sigma/\text{d}\eta(\text{jet 2})$ [pb] LegendYPos=0.5 LegendXPos=0.30 # END PLOT # BEGIN PLOT /MC_JETS/jet_eta_3 Title=Pseudorapidity of third jet XLabel=$\eta(\text{jet 3})$ YLabel=$\text{d}\sigma/\text{d}\eta(\text{jet 3})$ [pb] LegendYPos=0.5 LegendXPos=0.30 # END PLOT # BEGIN PLOT /MC_JETS/jet_eta_4 Title=Pseudorapidity of fourth jet XLabel=$\eta(\text{jet 4})$ YLabel=$\text{d}\sigma/\text{d}\eta(\text{jet 4})$ [pb] LegendYPos=0.5 LegendXPos=0.30 # END PLOT # BEGIN PLOT /MC_JETS/jet_eta_pmratio_1 Title=Pseudorapidity $+/-$ ratio of first jet XLabel=$|\eta(\text{jet 1}|$ YLabel=$\eta(\text{jet 1})_+/\eta(\text{jet 1})_-$ # END PLOT # BEGIN PLOT /MC_JETS/jet_eta_pmratio_2 Title=Pseudorapidity $+/-$ ratio of second jet XLabel=$|\eta(\text{jet 2}|$ YLabel=$\eta(\text{jet 2})_+/\eta(\text{jet 2})_-$ # END PLOT # BEGIN PLOT /MC_JETS/jet_eta_pmratio_3 Title=Pseudorapidity $+/-$ ratio of third jet XLabel=$|\eta(\text{jet 3}|$ YLabel=$\eta(\text{jet 3})_+/\eta(\text{jet 3})_-$ # END PLOT # BEGIN PLOT /MC_JETS/jet_eta_pmratio_4 Title=Pseudorapidity $+/-$ ratio of fourth jet XLabel=$|\eta(\text{jet 4}|$ YLabel=$\eta(\text{jet 4})_+/\eta(\text{jet 4})_-$ # END PLOT # BEGIN PLOT /MC_JETS/jet_y_1 Title=Rapidity of first jet XLabel=$y(\text{jet 1})$ YLabel=$\text{d}\sigma/\text{d}y(\text{jet 1})$ [pb] LegendYPos=0.5 LegendXPos=0.3 # END PLOT # BEGIN PLOT /MC_JETS/jet_y_2 Title=Rapidity of second jet XLabel=$y(\text{jet 2})$ YLabel=$\text{d}\sigma/\text{d}y(\text{jet 2})$ [pb] LegendYPos=0.5 LegendXPos=0.3 # END PLOT # BEGIN PLOT /MC_JETS/jet_y_3 Title=Rapidity of third jet XLabel=$y(\text{jet 3})$ YLabel=$\text{d}\sigma/\text{d}y(\text{jet 3})$ [pb] LegendYPos=0.5 LegendXPos=0.3 # END PLOT # BEGIN PLOT /MC_JETS/jet_y_4 Title=Rapidity of fourth jet XLabel=$y(\text{jet 4})$ YLabel=$\text{d}\sigma/\text{d}y(\text{jet 4})$ [pb] LegendYPos=0.5 LegendXPos=0.3 # END PLOT # BEGIN PLOT /MC_JETS/jet_y_pmratio_1 Title=Rapidity $+/-$ ratio of first jet XLabel=$|y(\text{jet 1}|$ YLabel=$y(\text{jet 1})_+/y(\text{jet 1})_-$ # END PLOT # BEGIN PLOT /MC_JETS/jet_y_pmratio_2 Title=Rapidity $+/-$ ratio of second jet XLabel=$|y(\text{jet 2}|$ YLabel=$y(\text{jet 2})_+/y(\text{jet 2})_-$ # END PLOT # BEGIN PLOT /MC_JETS/jet_y_pmratio_3 Title=Rapidity $+/-$ ratio of third jet XLabel=$|y(\text{jet 3}|$ YLabel=$y(\text{jet 3})_+/y(\text{jet 3})_-$ # END PLOT # BEGIN PLOT /MC_JETS/jet_y_pmratio_4 Title=Rapidity $+/-$ ratio of fourth jet XLabel=$|y(\text{jet 4}|$ YLabel=$y(\text{jet 4})_+/y(\text{jet 4})_-$ # END PLOT # BEGIN PLOT /MC_JETS/jet_mass_1 Title=Mass of first jet XLabel=$m(\text{jet 1})$ [GeV] YLabel=$\text{d}\sigma/\text{d}m(\text{jet 1})$ [pb/GeV] # END PLOT # BEGIN PLOT /MC_JETS/jet_mass_2 Title=Mass of second jet XLabel=$m(\text{jet 2})$ [GeV] YLabel=$\text{d}\sigma/\text{d}m(\text{jet 2})$ [pb/GeV] # END PLOT # BEGIN PLOT /MC_JETS/jet_mass_3 Title=Mass of third jet XLabel=$m(\text{jet 3})$ [GeV] YLabel=$\text{d}\sigma/\text{d}m(\text{jet 3})$ [pb/GeV] # END PLOT # BEGIN PLOT /MC_JETS/jet_mass_4 Title=Mass of fourth jet XLabel=$m(\text{jet 4})$ [GeV] YLabel=$\text{d}\sigma/\text{d}m(\text{jet 4})$ [pb/GeV] # END PLOT # BEGIN PLOT /MC_JETS/jet_multi_exclusive Title=Exclusive jet multiplicity XLabel=$N_{\text{jet}}$ YLabel=$\sigma(N_{\text{jet}})$ [pb] XMajorTickMarks=10 XMinorTickMarks=0 ErrorBands=1 # END PLOT # BEGIN PLOT /MC_JETS/jet_multi_inclusive Title=Inclusive jet multiplicity XLabel=$N_{\text{jet}}$ YLabel=$\sigma(\geq N_{\text{jet}})$ [pb] XMajorTickMarks=10 XMinorTickMarks=0 ErrorBands=1 # END PLOT # BEGIN PLOT /MC_JETS/jet_multi_ratio Title=Ratio of jet multiplicity XLabel=$N_{\text{jet}}$ YLabel=$\sigma(\geq N_{\text{jet}})/\sigma(\geq N_{\text{jet}}-1)$ XMajorTickMarks=10 XMinorTickMarks=0 LogY=0 ErrorBands=1 # END PLOT # BEGIN PLOT /MC_JETS/jet_pT_1 Title=Transverse momentum of leading jet XLabel=$p_\perp(\text{jet 1})$ [GeV] YLabel=$\text{d}\sigma/\text{d}p_\perp(\text{jet 1})$ [pb/GeV] LogX=1 #LegendXPos=0.05 #LegendYPos=0.5 XMin=20.0 # END PLOT # BEGIN PLOT /MC_JETS/jet_pT_2 Title=Transverse momentum of second jet XLabel=$p_\perp(\text{jet 2})$ [GeV] YLabel=$\text{d}\sigma/\text{d}p_\perp(\text{jet 2})$ [pb/GeV] LogX=1 #LegendXPos=0.05 #LegendYPos=0.5 XMin=20.0 # END PLOT # BEGIN PLOT /MC_JETS/jet_pT_3 Title=Transverse momentum of third jet XLabel=$p_\perp(\text{jet 3})$ [GeV] YLabel=$\text{d}\sigma/\text{d}p_\perp(\text{jet 3})$ [pb/GeV] LogX=1 #LegendXPos=0.05 #LegendYPos=0.5 XMin=20.0 # END PLOT # BEGIN PLOT /MC_JETS/jet_pT_4 Title=Transverse momentum of fourth jet XLabel=$p_\perp(\text{jet 4})$ [GeV] YLabel=$\text{d}\sigma/\text{d}p_\perp(\text{jet 4})$ [pb/GeV] LogX=1 #LegendXPos=0.05 #LegendYPos=0.5 XMin=20.0 # END PLOT # BEGIN PLOT /MC_JETS/jet_HT -Title=Scalar sum of jet transverse momenta (HT) -XLabel=$HT$ [GeV] -YLabel=$\text{d}\sigma/\text{d}HT$ [pb/GeV] +Title=Scalar sum of jet transverse momenta ($H_\text{T}$) +XLabel=$H_\text{T}$ [GeV] +YLabel=$\text{d}\sigma/\text{d}H_\text{T}$ [pb/GeV] LogX=1 # END PLOT # BEGIN PLOT /MC_JETS/jets_mjj Title=Dijet invariant mass spectrum XLabel=$m_{jj}$ [GeV] YLabel=$\text{d}\sigma/\text{d}m_{jj}$ [pb/GeV] LegendAlign=r # END PLOT