diff --git a/analyses/pluginALICE/ALICE_2010_S8625980.plot b/analyses/pluginALICE/ALICE_2010_S8625980.plot --- a/analyses/pluginALICE/ALICE_2010_S8625980.plot +++ b/analyses/pluginALICE/ALICE_2010_S8625980.plot @@ -1,26 +1,26 @@ # BEGIN PLOT /ALICE_2010_S8625980/d03-x01-y01 -Title=Charged Multiplicity $\sqrt(s)=7$ TeV +Title=Charged Multiplicity $\sqrt{s}=7$ TeV XLabel=$N_\text{ch}$ YLabel=$\text{d}N/\text{d}N_\text{ch}$ # END PLOT # BEGIN PLOT /ALICE_2010_S8625980/d04-x01-y01 -Title=Pseudorapidity $\sqrt(s)=0.9$ TeV, INEL $>0$ +Title=Pseudorapidity $\sqrt{s}=0.9$ TeV, INEL $>0$ XLabel=$\eta$ YLabel=$\text{d}N/\text{d}\eta$ LogY=0 # END PLOT # BEGIN PLOT /ALICE_2010_S8625980/d05-x01-y01 -Title=Pseudorapidity $\sqrt(s)=2.36$ TeV, INEL $>0$ +Title=Pseudorapidity $\sqrt{s}=2.36$ TeV, INEL $>0$ XLabel=$\eta$ YLabel=$\text{d}N/\text{d}\eta$ LogY=0 # END PLOT # BEGIN PLOT /ALICE_2010_S8625980/d06-x01-y01 -Title=Pseudorapidity $\sqrt(s)=7$ TeV, INEL $>0$ +Title=Pseudorapidity $\sqrt{s}=7$ TeV, INEL $>0$ XLabel=$\eta$ YLabel=$\text{d}N/\text{d}\eta$ LogY=0 # END PLOT diff --git a/analyses/pluginATLAS/ATLAS_2012_I1094061.plot b/analyses/pluginATLAS/ATLAS_2012_I1094061.plot --- a/analyses/pluginATLAS/ATLAS_2012_I1094061.plot +++ b/analyses/pluginATLAS/ATLAS_2012_I1094061.plot @@ -1,149 +1,149 @@ # BEGIN PLOT /ATLAS_2012_I1094061/d01-x01-y01 -Title=Two-particle correlation, $\sqrt$s = 900 GeV, $n_{ch}\ge2$, $0<\Delta\phi<\pi$ +Title=Two-particle correlation, $\sqrt{s}$ = 900 GeV, $n_{ch}\geq 2$, $0<\Delta\phi<\pi$ XLabel=$\Delta\eta$ YLabel=$R(\Delta\eta)$ LogY=0 LogX=0 LegendXPos=0.6 RatioPlotMode=deviation # END PLOT # BEGIN PLOT /ATLAS_2012_I1094061/d01-x01-y02 -Title=Two-particle correlation, $\sqrt$s = 7 TeV, $n_{ch}\ge2$, $0<\Delta\phi<\pi$ +Title=Two-particle correlation, $\sqrt{s}$ = 7 TeV, $n_{ch}\geq 2$, $0<\Delta\phi<\pi$ XLabel=$\Delta\eta$ YLabel=$R(\Delta\eta)$ LogY=0 LogX=0 LegendXPos=0.6 RatioPlotMode=deviation # END PLOT # BEGIN PLOT /ATLAS_2012_I1094061/d01-x01-y03 -Title=Two-particle correlation, $\sqrt$s = 7 TeV, $n_{ch}\ge20$, $0<\Delta\phi<\pi$ +Title=Two-particle correlation, $\sqrt{s}$ = 7 TeV, $n_{ch}\geq 20$, $0<\Delta\phi<\pi$ XLabel=$\Delta\eta$ YLabel=$R(\Delta\eta)$ LogY=0 LogX=0 LegendXPos=0.6 RatioPlotMode=deviation # END PLOT # BEGIN PLOT /ATLAS_2012_I1094061/d02-x01-y01 -Title=Two-particle correlation, $\sqrt$s = 900 GeV, $n_{ch}\ge2$, $0<\Delta\phi<\pi/2$ +Title=Two-particle correlation, $\sqrt{s}$ = 900 GeV, $n_{ch}\geq 2$, $0<\Delta\phi<\pi/2$ XLabel=$\Delta\eta$ YLabel=$R(\Delta\eta)$ LogY=0 LogX=0 LegendXPos=0.6 RatioPlotMode=deviation # END PLOT # BEGIN PLOT /ATLAS_2012_I1094061/d02-x01-y02 -Title=Two-particle correlation, $\sqrt$s = 7 TeV, $n_{ch}\ge2$, $0<\Delta\phi<\pi/2$ +Title=Two-particle correlation, $\sqrt{s}$ = 7 TeV, $n_{ch}\geq 2$, $0<\Delta\phi<\pi/2$ XLabel=$\Delta\eta$ YLabel=$R(\Delta\eta)$ LogY=0 LogX=0 LegendXPos=0.6 RatioPlotMode=deviation # END PLOT # BEGIN PLOT /ATLAS_2012_I1094061/d02-x01-y03 -Title=Two-particle correlation, $\sqrt$s = 7 TeV, $n_{ch}\ge20$, $0<\Delta\phi<\pi/2$ +Title=Two-particle correlation, $\sqrt{s}$ = 7 TeV, $n_{ch}\geq 20$, $0<\Delta\phi<\pi/2$ XLabel=$\Delta\eta$ YLabel=$R(\Delta\eta)$ LogY=0 LogX=0 LegendXPos=0.6 RatioPlotMode=deviation # END PLOT # BEGIN PLOT /ATLAS_2012_I1094061/d03-x01-y01 -Title=Two-particle correlation, $\sqrt$s = 900 GeV, $n_{ch}\ge2$, $\pi/2<\Delta\phi<\pi$ +Title=Two-particle correlation, $\sqrt{s}$ = 900 GeV, $n_{ch}\geq 2$, $\pi/2<\Delta\phi<\pi$ XLabel=$\Delta\eta$ YLabel=$R(\Delta\eta)$ LogY=0 LogX=0 LegendXPos=0.05 RatioPlotMode=deviation # END PLOT # BEGIN PLOT /ATLAS_2012_I1094061/d03-x01-y02 -Title=Two-particle correlation, $\sqrt$s = 7 TeV, $n_{ch}\ge2$, $\pi/2<\Delta\phi<\pi$ +Title=Two-particle correlation, $\sqrt{s}$ = 7 TeV, $n_{ch}\geq 2$, $\pi/2<\Delta\phi<\pi$ XLabel=$\Delta\eta$ YLabel=$R(\Delta\eta)$ LogY=0 LogX=0 LegendXPos=0.05 RatioPlotMode=deviation # END PLOT # BEGIN PLOT /ATLAS_2012_I1094061/d03-x01-y03 -Title=Two-particle correlation, $\sqrt$s = 7 TeV, $n_{ch}\ge20$, $\pi/2<\Delta\phi<\pi$ +Title=Two-particle correlation, $\sqrt{s}$ = 7 TeV, $n_{ch}\geq 20$, $\pi/2<\Delta\phi<\pi$ XLabel=$\Delta\eta$ YLabel=$R(\Delta\eta)$ LogY=0 LogX=0 LegendXPos=0.05 RatioPlotMode=deviation # END PLOT # BEGIN PLOT /ATLAS_2012_I1094061/d04-x01-y01 -Title=Two-particle correlation, $\sqrt$s = 900 GeV, $n_{ch}\ge2$, $0<\Delta\eta<2$ +Title=Two-particle correlation, $\sqrt{s}$ = 900 GeV, $n_{ch}\geq 2$, $0<\Delta\eta<2$ XLabel=$\Delta\phi$ YLabel=$R(\Delta\phi)$ LogY=0 LogX=0 LegendXPos=0.4 RatioPlotMode=deviation # END PLOT # BEGIN PLOT /ATLAS_2012_I1094061/d04-x01-y02 -Title=Two-particle correlation, $\sqrt$s = 7 TeV, $n_{ch}\ge2$, $0<\Delta\eta<2$ +Title=Two-particle correlation, $\sqrt{s}$ = 7 TeV, $n_{ch}\geq 2$, $0<\Delta\eta<2$ XLabel=$\Delta\phi$ YLabel=$R(\Delta\phi)$ LogY=0 LogX=0 LegendXPos=0.4 RatioPlotMode=deviation # END PLOT # BEGIN PLOT /ATLAS_2012_I1094061/d04-x01-y03 -Title=Two-particle correlation, $\sqrt$s = 7 TeV, $n_{ch}\ge20$, $0<\Delta\eta<2$ +Title=Two-particle correlation, $\sqrt{s}$ = 7 TeV, $n_{ch}\geq 20$, $0<\Delta\eta<2$ XLabel=$\Delta\phi$ YLabel=$R(\Delta\phi)$ LogY=0 LogX=0 LegendXPos=0.4 RatioPlotMode=deviation # END PLOT # BEGIN PLOT /ATLAS_2012_I1094061/d05-x01-y01 -Title=Two-particle correlation, $\sqrt$s = 900 GeV, $n_{ch}\ge2$, $2<\Delta\eta<5$ +Title=Two-particle correlation, $\sqrt{s}$ = 900 GeV, $n_{ch}\geq 2$, $2<\Delta\eta<5$ XLabel=$\Delta\phi$ YLabel=$R(\Delta\phi)$ LogY=0 LogX=0 LegendXPos=0.1 RatioPlotMode=deviation # END PLOT # BEGIN PLOT /ATLAS_2012_I1094061/d05-x01-y02 -Title=Two-particle correlation, $\sqrt$s = 7 TeV, $n_{ch}\ge2$, $2<\Delta\eta<5$ +Title=Two-particle correlation, $\sqrt{s}$ = 7 TeV, $n_{ch}\geq 2$, $2<\Delta\eta<5$ XLabel=$\Delta\phi$ YLabel=$R(\Delta\phi)$ LogY=0 LogX=0 LegendXPos=0.1 RatioPlotMode=deviation # END PLOT # BEGIN PLOT /ATLAS_2012_I1094061/d05-x01-y03 -Title=Two-particle correlation, $\sqrt$s = 7 TeV, $n_{ch}\ge20$, $2<\Delta\eta<5$ +Title=Two-particle correlation, $\sqrt{s}$ = 7 TeV, $n_{ch}\geq 20$, $2<\Delta\eta<5$ XLabel=$\Delta\phi$ YLabel=$R(\Delta\phi)$ LogY=0 LogX=0 LegendXPos=0.1 RatioPlotMode=deviation # END PLOT