diff --git a/analyses/pluginATLAS/ATLAS_2013_I1230812.plot b/analyses/pluginATLAS/ATLAS_2013_I1230812.plot --- a/analyses/pluginATLAS/ATLAS_2013_I1230812.plot +++ b/analyses/pluginATLAS/ATLAS_2013_I1230812.plot @@ -1,281 +1,276 @@ # BEGIN PLOT /ATLAS_2013_I1230812.*/d01-x01-y.* Title=Inclusive jet multiplicity XLabel=$N_\text{jet}$ YLabel=$\sigma(Z/\gamma^*(\to \ell^+\ell^-)+\geq N_\text{jet})$ [pb] LegendYPos=0.5 LegendXPos=0.05 XMinorTickMarks=0 # END PLOT # BEGIN PLOT /ATLAS_2013_I1230812.*/d02-x01-y.* Title=Inclusive jet multiplicity ratio XLabel=$N_\text{jet}$ YLabel=$\sigma(\geq N_\text{jet})/\sigma(\geq N_\text{jet}-1)$ LogY=0 LegendYPos=0.4 Scale=1.0 XMinorTickMarks=0 # END PLOT # BEGIN PLOT /ATLAS_2013_I1230812.*/d03-x01-y.* Title=Exclusive jet multiplicity XLabel=$N_\text{jet}$ YLabel=$\sigma(Z/\gamma^*(\to \ell^+\ell^-)+ N_\text{jet})$ [pb] LegendYPos=0.5 LegendXPos=0.05 XMinorTickMarks=0 # END PLOT # BEGIN PLOT /ATLAS_2013_I1230812.*/d04-x01-y.* Title=Exclusive jet multiplicity ratio XLabel=$N_\text{jet}$ YLabel=$\sigma(N_\text{jet})/\sigma(N_\text{jet}-1)$ LogY=0 LegendYPos=0.4 Scale=1.0 XMinorTickMarks=0 # END PLOT # BEGIN PLOT /ATLAS_2013_I1230812.*/d05-x01-y.* Title=Exclusive jet multiplicity ($p_\perp^\text{jet1}>150$ GeV) XLabel=$N_\text{jet}$ YLabel=$\sigma(Z/\gamma^*(\to \ell^+\ell^-)+ N_\text{jet})$ [pb] LegendYPos=0.5 LegendXPos=0.05 XMinorTickMarks=0 # END PLOT # BEGIN PLOT /ATLAS_2013_I1230812.*/d06-x01-y.* Title=Exclusive jet multiplicity ratio ($p_\perp^\text{jet1}>150$ GeV) XLabel=$N_\text{jet}$ YLabel=$\sigma(N_\text{jet})/\sigma(N_\text{jet}-1)$ LogY=0 LegendYPos=0.4 Scale=1.0 XMinorTickMarks=0 # END PLOT # BEGIN PLOT /ATLAS_2013_I1230812.*/d07-x01-y.* Title=Exclusive jet multiplicity (VBF selection) XLabel=$N_\text{jet}$ YLabel=$\sigma(Z/\gamma^*(\to \ell^+\ell^-)+ N_\text{jet})$ [pb] LegendYPos=0.5 LegendXPos=0.05 XMinorTickMarks=0 # END PLOT # BEGIN PLOT /ATLAS_2013_I1230812.*/d08-x01-y.* Title=Exclusive jet multiplicity ratio (VBF selection) XLabel=$N_\text{jet}$ YLabel=$\sigma(N_\text{jet})/\sigma(N_\text{jet}-1)$ LogY=0 LegendYPos=0.4 Scale=1.0 XMinorTickMarks=0 XMajorTickMarks=10 # END PLOT # BEGIN PLOT /ATLAS_2013_I1230812.*/d09-x01-y.* Title=Transverse momentum of 1st jet XLabel=$p_\perp$(1st jet) [GeV] YLabel=d$\sigma$/d$p_\perp$ [pb/GeV] LegendAlign=r # END PLOT # BEGIN PLOT /ATLAS_2013_I1230812.*/d10-x01-y.* Title=Transverse momentum of 2nd jet XLabel=$p_\perp$(2nd jet) [GeV] YLabel=d$\sigma$/d$p_\perp$ [pb/GeV] LegendAlign=r # END PLOT # BEGIN PLOT /ATLAS_2013_I1230812.*/d11-x01-y.* Title=Transverse momentum of 3rd jet XLabel=$p_\perp$(3rd jet) [GeV] YLabel=d$\sigma$/d$p_\perp$ [pb/GeV] LegendAlign=r # END PLOT # BEGIN PLOT /ATLAS_2013_I1230812.*/d12-x01-y.* Title=Transverse momentum of 4th jet XLabel=$p_\perp$(4th jet) [GeV] YLabel=d$\sigma$/d$p_\perp$ [pb/GeV] LegendAlign=r # END PLOT # BEGIN PLOT /ATLAS_2013_I1230812.*/d13-x01-y.* Title=Transverse jet momentum in $Z+1$jet events XLabel=$p_\perp$(jet) [GeV] YLabel=d$\sigma$/d$p_\perp$ [pb/GeV] LegendAlign=r # END PLOT # BEGIN PLOT /ATLAS_2013_I1230812.*/d14-x01-y.* Title=Ratio of jet transverse momenta XLabel=$p_\perp$(2nd jet)/$p_\perp$(1st jet) YLabel=d$\sigma$/d($p_\perp$ ratio) [pb] LegendAlign=r LegendYPos=0.5 # END PLOT # BEGIN PLOT /ATLAS_2013_I1230812.*/d15-x01-y.* Title=Transverse momentum of $Z$-boson XLabel=$p_\perp(Z)$ [GeV] YLabel=d$\sigma$/d$p_\perp$ [pb/GeV] LegendAlign=r # END PLOT # BEGIN PLOT /ATLAS_2013_I1230812.*/d16-x01-y.* Title=Transverse momentum of $Z$-boson ($Z+1$jet events) XLabel=$p_\perp(Z)$ [GeV] YLabel=d$\sigma$/d$p_\perp$ [pb/GeV] LegendAlign=r # END PLOT # BEGIN PLOT /ATLAS_2013_I1230812.*/d17-x01-y.* Title=Rapidity of 1st jet XLabel=$|y|$(1st jet) YLabel=d$\sigma$/d$|y|$ [pb] LegendAlign=l LegendYPos=0.5 LegendXPos=0.05 # END PLOT # BEGIN PLOT /ATLAS_2013_I1230812.*/d18-x01-y.* Title=Rapidity of 2nd jet XLabel=$|y|$(2nd jet) YLabel=d$\sigma$/d$|y|$ [pb] LegendAlign=l LegendYPos=0.5 LegendXPos=0.05 # END PLOT # BEGIN PLOT /ATLAS_2013_I1230812.*/d19-x01-y.* Title=Rapidity of 3rd jet XLabel=$|y|$(3rd jet) YLabel=d$\sigma$/d$|y|$ [pb] LegendAlign=l LegendYPos=0.5 LegendXPos=0.05 # END PLOT # BEGIN PLOT /ATLAS_2013_I1230812.*/d20-x01-y.* Title=Rapidity of 4th jet XLabel=$|y|$(4th jet) YLabel=d$\sigma$/d$|y|$ [pb] LegendAlign=l LegendYPos=0.5 LegendXPos=0.05 # END PLOT # BEGIN PLOT /ATLAS_2013_I1230812.*/d21-x01-y.* Title=Rapidity distance of leading jets XLabel=$|\Delta y|$(1st jet, 2nd jet) YLabel=d$\sigma$/d$|\Delta y|$ [pb] LegendAlign=l LegendYPos=0.5 LegendXPos=0.05 # END PLOT # BEGIN PLOT /ATLAS_2013_I1230812.*/d22-x01-y.* Title=Invariant mass of leading jets XLabel=$m$(1st jet, 2nd jet) [GeV] YLabel=d$\sigma$/d$m$ [pb/GeV] LegendAlign=r # END PLOT # BEGIN PLOT /ATLAS_2013_I1230812.*/d23-x01-y.* Title=Azimuthal distance of leading jets XLabel=$|\Delta\phi|$(1st jet, 2nd jet) YLabel=d$\sigma$/d$|\Delta\phi|$ [pb] LegendAlign=l LegendXPos=0.05 # END PLOT # BEGIN PLOT /ATLAS_2013_I1230812.*/d24-x01-y.* Title=$\Delta R$ distance of leading jets XLabel=$\Delta R$(1st jet, 2nd jet) YLabel=d$\sigma$/d$\Delta R$ [pb] LegendAlign=l LegendXPos=0.05 LegendYPos=0.5 # END PLOT # BEGIN PLOT /ATLAS_2013_I1230812.*/d25-x01-y.* Title=Transverse momentum of 3rd jet (VBF selection) XLabel=$p_\perp$(3rd jet) [GeV] YLabel=d$\sigma$/d$p_\perp$ [pb/GeV] LegendAlign=r # END PLOT # BEGIN PLOT /ATLAS_2013_I1230812.*/d26-x01-y.* Title=Rapidity of 3rd jet (VBF selection) XLabel=$|y|$(3rd jet) YLabel=d$\sigma$/d$|y|$ [pb] LegendAlign=l LegendXPos=0.05 LegendYPos=0.5 # END PLOT # BEGIN PLOT /ATLAS_2013_I1230812.*/d27-x01-y.* Title=Scalar $p_\perp$ sum of leptons and jets XLabel=$H_T$ [GeV] YLabel=d$\sigma$/d$H_T$ [pb/GeV] LegendAlign=r # END PLOT # BEGIN PLOT /ATLAS_2013_I1230812.*/d28-x01-y.* Title=Scalar $p_\perp$ sum of jets XLabel=$S_T$ [GeV] YLabel=d$\sigma$/d$S_T$ [pb/GeV] LegendAlign=r # END PLOT -# BEGIN PLOT /ATLAS_2013_I1230812/*-y01 -CustomLegend=$Z/\gamma^*\to \ell^+\ell^-$ +# BEGIN PLOT /ATLAS_2013_I1230812/d01-x01-y.* +YLabel=$\sigma(Z/\gamma^*(\to \text{e}^+\text{e}^-)+\geq N_\text{jet})$ [pb] +CustomLegend=$Z/\gamma^*\to \text{e}^+\text{e}^-$ # END PLOT -# BEGIN PLOT /ATLAS_2013_I1230812/*-y02 -CustomLegend=$Z/\gamma^*\to e^+e^-$ +# BEGIN PLOT /ATLAS_2013_I1230812/d03-x01-y.* +YLabel=$\sigma(Z/\gamma^*(\to \text{e}^+\text{e}^-)+ N_\text{jet})$ [pb] +CustomLegend=$Z/\gamma^*\to \text{e}^+\text{e}^-$ # END PLOT -# BEGIN PLOT /ATLAS_2013_I1230812/*-y03 +# BEGIN PLOT /ATLAS_2013_I1230812/d05-x01-y.* +YLabel=$\sigma(Z/\gamma^*(\to \text{e}^+\text{e}^-)+ N_\text{jet})$ [pb] +CustomLegend=$Z/\gamma^*\to \text{e}^+\text{e}^-$ +# END PLOT + +# BEGIN PLOT /ATLAS_2013_I1230812/d07-x01-y.* +YLabel=$\sigma(Z/\gamma^*(\to \text{e}^+\text{e}^-)+ N_\text{jet})$ [pb] +CustomLegend=$Z/\gamma^*\to \text{e}^+\text{e}^-$ +# END PLOT + +# BEGIN PLOT /ATLAS_2013_I1230812/d01-x01-y.* +YLabel=$\sigma(Z/\gamma^*(\to \mu^+\mu^-)+\geq N_\text{jet})$ [pb] +CustomLegend=$Z/\gamma^*\to \mu^+\mu^-$ +# END PLOT + +# BEGIN PLOT /ATLAS_2013_I1230812/d03-x01-y.* +YLabel=$\sigma(Z/\gamma^*(\to \mu^+\mu^-)+ N_\text{jet})$ [pb] +CustomLegend=$Z/\gamma^*\to \mu^+\mu^-$ +# END PLOT + +# BEGIN PLOT /ATLAS_2013_I1230812/d05-x01-y.* +YLabel=$\sigma(Z/\gamma^*(\to \mu^+\mu^-)+ N_\text{jet})$ [pb] +CustomLegend=$Z/\gamma^*\to \mu^+\mu^-$ +# END PLOT + +# BEGIN PLOT /ATLAS_2013_I1230812/d07-x01-y.* +YLabel=$\sigma(Z/\gamma^*(\to \mu^+\mu^-)+ N_\text{jet})$ [pb] CustomLegend=$Z/\gamma^*\to \mu^+\mu^-$ # END PLOT # BEGIN PLOT /ATLAS_2013_I1230812/d01-x01-y02 -YLabel=$\sigma(Z/\gamma^*(\to e^+e^-)+\geq N_\text{jet})$ [pb] -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812/d03-x01-y02 -YLabel=$\sigma(Z/\gamma^*(\to e^+e^-)+ N_\text{jet})$ [pb] -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812/d05-x01-y02 -YLabel=$\sigma(Z/\gamma^*(\to e^+e^-)+ N_\text{jet})$ [pb] -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812/d07-x01-y02 -YLabel=$\sigma(Z/\gamma^*(\to e^+e^-)+ N_\text{jet})$ [pb] -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812/d01-x01-y03 -YLabel=$\sigma(Z/\gamma^*(\to \mu^+\mu^-)+\geq N_\text{jet})$ [pb] -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812/d03-x01-y03 -YLabel=$\sigma(Z/\gamma^*(\to \mu^+\mu^-)+ N_\text{jet})$ [pb] -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812/d05-x01-y03 -YLabel=$\sigma(Z/\gamma^*(\to \mu^+\mu^-)+ N_\text{jet})$ [pb] -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812/d07-x01-y03 -YLabel=$\sigma(Z/\gamma^*(\to \mu^+\mu^-)+ N_\text{jet})$ [pb] -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812/d01-x01-y03 CustomLegend=$Z/\gamma^*\to \mu^+\mu^-$ First data bin read from plot # END PLOT - diff --git a/analyses/pluginATLAS/ATLAS_2013_I1230812_EL.plot b/analyses/pluginATLAS/ATLAS_2013_I1230812_EL.plot deleted file mode 100644 --- a/analyses/pluginATLAS/ATLAS_2013_I1230812_EL.plot +++ /dev/null @@ -1,276 +0,0 @@ -# BEGIN PLOT /ATLAS_2013_I1230812.*/d01-x01-y.* -Title=Inclusive jet multiplicity -XLabel=$N_\text{jet}$ -YLabel=$\sigma(Z/\gamma^*(\to \ell^+\ell^-)+\geq N_\text{jet})$ [pb] -LegendYPos=0.5 -LegendXPos=0.05 -XMinorTickMarks=0 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d02-x01-y.* -Title=Inclusive jet multiplicity ratio -XLabel=$N_\text{jet}$ -YLabel=$\sigma(\geq N_\text{jet})/\sigma(\geq N_\text{jet}-1)$ -LogY=0 -LegendYPos=0.4 -Scale=1.0 -XMinorTickMarks=0 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d03-x01-y.* -Title=Exclusive jet multiplicity -XLabel=$N_\text{jet}$ -YLabel=$\sigma(Z/\gamma^*(\to \ell^+\ell^-)+ N_\text{jet})$ [pb] -LegendYPos=0.5 -LegendXPos=0.05 -XMinorTickMarks=0 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d04-x01-y.* -Title=Exclusive jet multiplicity ratio -XLabel=$N_\text{jet}$ -YLabel=$\sigma(N_\text{jet})/\sigma(N_\text{jet}-1)$ -LogY=0 -LegendYPos=0.4 -Scale=1.0 -XMinorTickMarks=0 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d05-x01-y.* -Title=Exclusive jet multiplicity ($p_\perp^\text{jet1}>150$ GeV) -XLabel=$N_\text{jet}$ -YLabel=$\sigma(Z/\gamma^*(\to \ell^+\ell^-)+ N_\text{jet})$ [pb] -LegendYPos=0.5 -LegendXPos=0.05 -XMinorTickMarks=0 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d06-x01-y.* -Title=Exclusive jet multiplicity ratio ($p_\perp^\text{jet1}>150$ GeV) -XLabel=$N_\text{jet}$ -YLabel=$\sigma(N_\text{jet})/\sigma(N_\text{jet}-1)$ -LogY=0 -LegendYPos=0.4 -Scale=1.0 -XMinorTickMarks=0 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d07-x01-y.* -Title=Exclusive jet multiplicity (VBF selection) -XLabel=$N_\text{jet}$ -YLabel=$\sigma(Z/\gamma^*(\to \ell^+\ell^-)+ N_\text{jet})$ [pb] -LegendYPos=0.5 -LegendXPos=0.05 -XMinorTickMarks=0 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d08-x01-y.* -Title=Exclusive jet multiplicity ratio (VBF selection) -XLabel=$N_\text{jet}$ -YLabel=$\sigma(N_\text{jet})/\sigma(N_\text{jet}-1)$ -LogY=0 -LegendYPos=0.4 -Scale=1.0 -XMinorTickMarks=0 -XMajorTickMarks=10 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d09-x01-y.* -Title=Transverse momentum of 1st jet -XLabel=$p_\perp$(1st jet) [GeV] -YLabel=d$\sigma$/d$p_\perp$ [pb/GeV] -LegendAlign=r -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d10-x01-y.* -Title=Transverse momentum of 2nd jet -XLabel=$p_\perp$(2nd jet) [GeV] -YLabel=d$\sigma$/d$p_\perp$ [pb/GeV] -LegendAlign=r -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d11-x01-y.* -Title=Transverse momentum of 3rd jet -XLabel=$p_\perp$(3rd jet) [GeV] -YLabel=d$\sigma$/d$p_\perp$ [pb/GeV] -LegendAlign=r -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d12-x01-y.* -Title=Transverse momentum of 4th jet -XLabel=$p_\perp$(4th jet) [GeV] -YLabel=d$\sigma$/d$p_\perp$ [pb/GeV] -LegendAlign=r -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d13-x01-y.* -Title=Transverse jet momentum in $Z+1$jet events -XLabel=$p_\perp$(jet) [GeV] -YLabel=d$\sigma$/d$p_\perp$ [pb/GeV] -LegendAlign=r -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d14-x01-y.* -Title=Ratio of jet transverse momenta -XLabel=$p_\perp$(2nd jet)/$p_\perp$(1st jet) -YLabel=d$\sigma$/d($p_\perp$ ratio) [pb] -LegendAlign=r -LegendYPos=0.5 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d15-x01-y.* -Title=Transverse momentum of $Z$-boson -XLabel=$p_\perp(Z)$ [GeV] -YLabel=d$\sigma$/d$p_\perp$ [pb/GeV] -LegendAlign=r -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d16-x01-y.* -Title=Transverse momentum of $Z$-boson ($Z+1$jet events) -XLabel=$p_\perp(Z)$ [GeV] -YLabel=d$\sigma$/d$p_\perp$ [pb/GeV] -LegendAlign=r -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d17-x01-y.* -Title=Rapidity of 1st jet -XLabel=$|y|$(1st jet) -YLabel=d$\sigma$/d$|y|$ [pb] -LegendAlign=l -LegendYPos=0.5 -LegendXPos=0.05 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d18-x01-y.* -Title=Rapidity of 2nd jet -XLabel=$|y|$(2nd jet) -YLabel=d$\sigma$/d$|y|$ [pb] -LegendAlign=l -LegendYPos=0.5 -LegendXPos=0.05 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d19-x01-y.* -Title=Rapidity of 3rd jet -XLabel=$|y|$(3rd jet) -YLabel=d$\sigma$/d$|y|$ [pb] -LegendAlign=l -LegendYPos=0.5 -LegendXPos=0.05 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d20-x01-y.* -Title=Rapidity of 4th jet -XLabel=$|y|$(4th jet) -YLabel=d$\sigma$/d$|y|$ [pb] -LegendAlign=l -LegendYPos=0.5 -LegendXPos=0.05 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d21-x01-y.* -Title=Rapidity distance of leading jets -XLabel=$|\Delta y|$(1st jet, 2nd jet) -YLabel=d$\sigma$/d$|\Delta y|$ [pb] -LegendAlign=l -LegendYPos=0.5 -LegendXPos=0.05 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d22-x01-y.* -Title=Invariant mass of leading jets -XLabel=$m$(1st jet, 2nd jet) [GeV] -YLabel=d$\sigma$/d$m$ [pb/GeV] -LegendAlign=r -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d23-x01-y.* -Title=Azimuthal distance of leading jets -XLabel=$|\Delta\phi|$(1st jet, 2nd jet) -YLabel=d$\sigma$/d$|\Delta\phi|$ [pb] -LegendAlign=l -LegendXPos=0.05 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d24-x01-y.* -Title=$\Delta R$ distance of leading jets -XLabel=$\Delta R$(1st jet, 2nd jet) -YLabel=d$\sigma$/d$\Delta R$ [pb] -LegendAlign=l -LegendXPos=0.05 -LegendYPos=0.5 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d25-x01-y.* -Title=Transverse momentum of 3rd jet (VBF selection) -XLabel=$p_\perp$(3rd jet) [GeV] -YLabel=d$\sigma$/d$p_\perp$ [pb/GeV] -LegendAlign=r -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d26-x01-y.* -Title=Rapidity of 3rd jet (VBF selection) -XLabel=$|y|$(3rd jet) -YLabel=d$\sigma$/d$|y|$ [pb] -LegendAlign=l -LegendXPos=0.05 -LegendYPos=0.5 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d27-x01-y.* -Title=Scalar $p_\perp$ sum of leptons and jets -XLabel=$H_T$ [GeV] -YLabel=d$\sigma$/d$H_T$ [pb/GeV] -LegendAlign=r -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d28-x01-y.* -Title=Scalar $p_\perp$ sum of jets -XLabel=$S_T$ [GeV] -YLabel=d$\sigma$/d$S_T$ [pb/GeV] -LegendAlign=r -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812_EL/.* -CustomLegend=$Z/\gamma^*\to \text{e}^+\text{e}^-$ -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812_MU/.* -CustomLegend=$Z/\gamma^*\to \mu^+\mu^-$ -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812_EL/d01-x01-y.* -YLabel=$\sigma(Z/\gamma^*(\to \text{e}^+\text{e}^-)+\geq N_\text{jet})$ [pb] -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812_EL/d03-x01-y.* -YLabel=$\sigma(Z/\gamma^*(\to \text{e}^+\text{e}^-)+ N_\text{jet})$ [pb] -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812_EL/d05-x01-y.* -YLabel=$\sigma(Z/\gamma^*(\to \text{e}^+\text{e}^-)+ N_\text{jet})$ [pb] -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812_EL/d07-x01-y.* -YLabel=$\sigma(Z/\gamma^*(\to \text{e}^+\text{e}^-)+ N_\text{jet})$ [pb] -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812_MU/d01-x01-y.* -YLabel=$\sigma(Z/\gamma^*(\to \mu^+\mu^-)+\geq N_\text{jet})$ [pb] -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812_MU/d03-x01-y.* -YLabel=$\sigma(Z/\gamma^*(\to \mu^+\mu^-)+ N_\text{jet})$ [pb] -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812_MU/d05-x01-y.* -YLabel=$\sigma(Z/\gamma^*(\to \mu^+\mu^-)+ N_\text{jet})$ [pb] -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812_MU/d07-x01-y.* -YLabel=$\sigma(Z/\gamma^*(\to \mu^+\mu^-)+ N_\text{jet})$ [pb] -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812_MU/d01-x01-y02 -CustomLegend=$Z/\gamma^*\to \mu^+\mu^-$ First data bin read from plot -# END PLOT diff --git a/analyses/pluginATLAS/ATLAS_2013_I1230812_MU.plot b/analyses/pluginATLAS/ATLAS_2013_I1230812_MU.plot deleted file mode 100644 --- a/analyses/pluginATLAS/ATLAS_2013_I1230812_MU.plot +++ /dev/null @@ -1,276 +0,0 @@ -# BEGIN PLOT /ATLAS_2013_I1230812.*/d01-x01-y.* -Title=Inclusive jet multiplicity -XLabel=$N_\text{jet}$ -YLabel=$\sigma(Z/\gamma^*(\to \ell^+\ell^-)+\geq N_\text{jet})$ [pb] -LegendYPos=0.5 -LegendXPos=0.05 -XMinorTickMarks=0 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d02-x01-y.* -Title=Inclusive jet multiplicity ratio -XLabel=$N_\text{jet}$ -YLabel=$\sigma(\geq N_\text{jet})/\sigma(\geq N_\text{jet}-1)$ -LogY=0 -LegendYPos=0.4 -Scale=1.0 -XMinorTickMarks=0 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d03-x01-y.* -Title=Exclusive jet multiplicity -XLabel=$N_\text{jet}$ -YLabel=$\sigma(Z/\gamma^*(\to \ell^+\ell^-)+ N_\text{jet})$ [pb] -LegendYPos=0.5 -LegendXPos=0.05 -XMinorTickMarks=0 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d04-x01-y.* -Title=Exclusive jet multiplicity ratio -XLabel=$N_\text{jet}$ -YLabel=$\sigma(N_\text{jet})/\sigma(N_\text{jet}-1)$ -LogY=0 -LegendYPos=0.4 -Scale=1.0 -XMinorTickMarks=0 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d05-x01-y.* -Title=Exclusive jet multiplicity ($p_\perp^\text{jet1}>150$ GeV) -XLabel=$N_\text{jet}$ -YLabel=$\sigma(Z/\gamma^*(\to \ell^+\ell^-)+ N_\text{jet})$ [pb] -LegendYPos=0.5 -LegendXPos=0.05 -XMinorTickMarks=0 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d06-x01-y.* -Title=Exclusive jet multiplicity ratio ($p_\perp^\text{jet1}>150$ GeV) -XLabel=$N_\text{jet}$ -YLabel=$\sigma(N_\text{jet})/\sigma(N_\text{jet}-1)$ -LogY=0 -LegendYPos=0.4 -Scale=1.0 -XMinorTickMarks=0 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d07-x01-y.* -Title=Exclusive jet multiplicity (VBF selection) -XLabel=$N_\text{jet}$ -YLabel=$\sigma(Z/\gamma^*(\to \ell^+\ell^-)+ N_\text{jet})$ [pb] -LegendYPos=0.5 -LegendXPos=0.05 -XMinorTickMarks=0 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d08-x01-y.* -Title=Exclusive jet multiplicity ratio (VBF selection) -XLabel=$N_\text{jet}$ -YLabel=$\sigma(N_\text{jet})/\sigma(N_\text{jet}-1)$ -LogY=0 -LegendYPos=0.4 -Scale=1.0 -XMinorTickMarks=0 -XMajorTickMarks=10 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d09-x01-y.* -Title=Transverse momentum of 1st jet -XLabel=$p_\perp$(1st jet) [GeV] -YLabel=d$\sigma$/d$p_\perp$ [pb/GeV] -LegendAlign=r -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d10-x01-y.* -Title=Transverse momentum of 2nd jet -XLabel=$p_\perp$(2nd jet) [GeV] -YLabel=d$\sigma$/d$p_\perp$ [pb/GeV] -LegendAlign=r -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d11-x01-y.* -Title=Transverse momentum of 3rd jet -XLabel=$p_\perp$(3rd jet) [GeV] -YLabel=d$\sigma$/d$p_\perp$ [pb/GeV] -LegendAlign=r -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d12-x01-y.* -Title=Transverse momentum of 4th jet -XLabel=$p_\perp$(4th jet) [GeV] -YLabel=d$\sigma$/d$p_\perp$ [pb/GeV] -LegendAlign=r -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d13-x01-y.* -Title=Transverse jet momentum in $Z+1$jet events -XLabel=$p_\perp$(jet) [GeV] -YLabel=d$\sigma$/d$p_\perp$ [pb/GeV] -LegendAlign=r -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d14-x01-y.* -Title=Ratio of jet transverse momenta -XLabel=$p_\perp$(2nd jet)/$p_\perp$(1st jet) -YLabel=d$\sigma$/d($p_\perp$ ratio) [pb] -LegendAlign=r -LegendYPos=0.5 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d15-x01-y.* -Title=Transverse momentum of $Z$-boson -XLabel=$p_\perp(Z)$ [GeV] -YLabel=d$\sigma$/d$p_\perp$ [pb/GeV] -LegendAlign=r -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d16-x01-y.* -Title=Transverse momentum of $Z$-boson ($Z+1$jet events) -XLabel=$p_\perp(Z)$ [GeV] -YLabel=d$\sigma$/d$p_\perp$ [pb/GeV] -LegendAlign=r -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d17-x01-y.* -Title=Rapidity of 1st jet -XLabel=$|y|$(1st jet) -YLabel=d$\sigma$/d$|y|$ [pb] -LegendAlign=l -LegendYPos=0.5 -LegendXPos=0.05 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d18-x01-y.* -Title=Rapidity of 2nd jet -XLabel=$|y|$(2nd jet) -YLabel=d$\sigma$/d$|y|$ [pb] -LegendAlign=l -LegendYPos=0.5 -LegendXPos=0.05 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d19-x01-y.* -Title=Rapidity of 3rd jet -XLabel=$|y|$(3rd jet) -YLabel=d$\sigma$/d$|y|$ [pb] -LegendAlign=l -LegendYPos=0.5 -LegendXPos=0.05 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d20-x01-y.* -Title=Rapidity of 4th jet -XLabel=$|y|$(4th jet) -YLabel=d$\sigma$/d$|y|$ [pb] -LegendAlign=l -LegendYPos=0.5 -LegendXPos=0.05 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d21-x01-y.* -Title=Rapidity distance of leading jets -XLabel=$|\Delta y|$(1st jet, 2nd jet) -YLabel=d$\sigma$/d$|\Delta y|$ [pb] -LegendAlign=l -LegendYPos=0.5 -LegendXPos=0.05 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d22-x01-y.* -Title=Invariant mass of leading jets -XLabel=$m$(1st jet, 2nd jet) [GeV] -YLabel=d$\sigma$/d$m$ [pb/GeV] -LegendAlign=r -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d23-x01-y.* -Title=Azimuthal distance of leading jets -XLabel=$|\Delta\phi|$(1st jet, 2nd jet) -YLabel=d$\sigma$/d$|\Delta\phi|$ [pb] -LegendAlign=l -LegendXPos=0.05 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d24-x01-y.* -Title=$\Delta R$ distance of leading jets -XLabel=$\Delta R$(1st jet, 2nd jet) -YLabel=d$\sigma$/d$\Delta R$ [pb] -LegendAlign=l -LegendXPos=0.05 -LegendYPos=0.5 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d25-x01-y.* -Title=Transverse momentum of 3rd jet (VBF selection) -XLabel=$p_\perp$(3rd jet) [GeV] -YLabel=d$\sigma$/d$p_\perp$ [pb/GeV] -LegendAlign=r -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d26-x01-y.* -Title=Rapidity of 3rd jet (VBF selection) -XLabel=$|y|$(3rd jet) -YLabel=d$\sigma$/d$|y|$ [pb] -LegendAlign=l -LegendXPos=0.05 -LegendYPos=0.5 -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d27-x01-y.* -Title=Scalar $p_\perp$ sum of leptons and jets -XLabel=$H_T$ [GeV] -YLabel=d$\sigma$/d$H_T$ [pb/GeV] -LegendAlign=r -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812.*/d28-x01-y.* -Title=Scalar $p_\perp$ sum of jets -XLabel=$S_T$ [GeV] -YLabel=d$\sigma$/d$S_T$ [pb/GeV] -LegendAlign=r -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812_EL/.* -CustomLegend=$Z/\gamma^*\to \text{e}^+\text{e}^-$ -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812_MU/.* -CustomLegend=$Z/\gamma^*\to \mu^+\mu^-$ -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812_EL/d01-x01-y.* -YLabel=$\sigma(Z/\gamma^*(\to \text{e}^+\text{e}^-)+\geq N_\text{jet})$ [pb] -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812_EL/d03-x01-y.* -YLabel=$\sigma(Z/\gamma^*(\to \text{e}^+\text{e}^-)+ N_\text{jet})$ [pb] -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812_EL/d05-x01-y.* -YLabel=$\sigma(Z/\gamma^*(\to \text{e}^+\text{e}^-)+ N_\text{jet})$ [pb] -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812_EL/d07-x01-y.* -YLabel=$\sigma(Z/\gamma^*(\to \text{e}^+\text{e}^-)+ N_\text{jet})$ [pb] -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812_MU/d01-x01-y.* -YLabel=$\sigma(Z/\gamma^*(\to \mu^+\mu^-)+\geq N_\text{jet})$ [pb] -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812_MU/d03-x01-y.* -YLabel=$\sigma(Z/\gamma^*(\to \mu^+\mu^-)+ N_\text{jet})$ [pb] -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812_MU/d05-x01-y.* -YLabel=$\sigma(Z/\gamma^*(\to \mu^+\mu^-)+ N_\text{jet})$ [pb] -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812_MU/d07-x01-y.* -YLabel=$\sigma(Z/\gamma^*(\to \mu^+\mu^-)+ N_\text{jet})$ [pb] -# END PLOT - -# BEGIN PLOT /ATLAS_2013_I1230812_MU/d01-x01-y03 -CustomLegend=$Z/\gamma^*\to \mu^+\mu^-$ First data bin read from plot -# END PLOT diff --git a/analyses/pluginATLAS/ATLAS_2017_I1589844.info b/analyses/pluginATLAS/ATLAS_2017_I1589844.info --- a/analyses/pluginATLAS/ATLAS_2017_I1589844.info +++ b/analyses/pluginATLAS/ATLAS_2017_I1589844.info @@ -1,45 +1,46 @@ Name: ATLAS_2017_I1589844 Year: 2017 Summary: $k_T$ splittings in $Z$ events at 8 TeV Experiment: ATLAS Collider: LHC InspireID: 1589844 Status: VALIDATED Authors: - Christian Gutschow - Frank Siegert References: - arXiv:1704.01530 [hep-ex] - submitted to JHEP Keywords: - zboson - jets RunInfo: '$pp \to Z(\to ee/\mu\mu) +$ jets at 8 TeV' Luminosity_fb: 20.2 Beams: [p+, p+] Energies: [8000] PtCuts: [25, 25, 0.4] Options: - ZMODE=EL,MU Description: 'A measurement of the splitting scales occuring in the $k_\text{t}$ jet-clustering algorithm is presented for final states containing a $Z$ boson. The measurement is done using 20.2 fb$^{-1}$ of proton-proton collision data collected at a centre-of-mass energy of $\sqrt{s} = 8$ TeV by the ATLAS experiment at the LHC in 2012. The measurement is based on charged-particle track information, which is measured with excellent precision in the $p_\text{T}$ region relevant for the transition between the perturbative and the non-perturbative regimes. The data distributions are corrected for detector effects, and are found to deviate from - state-of-the-art predictions in various regions of the observables.' + state-of-the-art predictions in various regions of the observables. If no mode specified, will try to fill both electron and muon plots. If EL or MU + is specified, only the relevant plots will be filled.' BibKey: Aaboud:2017hox BibTeX: '@article{Aaboud:2017hox, author = "Aaboud, Morad and others", title = "{Measurement of the $k_\mathrm{t}$ splitting scales in $Z \to \ell\ell$ events in $pp$ collisions at $\sqrt{s} = 8$ TeV with the ATLAS detector}", collaboration = "ATLAS", year = "2017", eprint = "1704.01530", archivePrefix = "arXiv", primaryClass = "hep-ex", reportNumber = "CERN-EP-2017-033", SLACcitation = "%%CITATION = ARXIV:1704.01530;%%" }' diff --git a/analyses/pluginATLAS/ATLAS_2017_I1589844_EL.info b/analyses/pluginATLAS/ATLAS_2017_I1589844_EL.info deleted file mode 100644 --- a/analyses/pluginATLAS/ATLAS_2017_I1589844_EL.info +++ /dev/null @@ -1,43 +0,0 @@ -Name: ATLAS_2017_I1589844_EL -Year: 2017 -Summary: $k_T$ splittings in $Z$ events at 8 TeV, electron mode -Experiment: ATLAS -Collider: LHC -InspireID: 1589844 -Status: VALIDATED -Authors: - - Christian Gutschow - - Frank Siegert -References: - - arXiv:1704.01530 [hep-ex] - - submitted to JHEP -Keywords: - - zboson - - jets -RunInfo: - '$pp \to Z(\to ee/\mu\mu) +$ jets at 8 TeV' -Luminosity_fb: 20.2 -Beams: [p+, p+] -Energies: [8000] -PtCuts: [25, 25, 0.4] -Description: - 'A measurement of the splitting scales occuring in the $k_\text{t}$ jet-clustering algorithm is presented for final states containing - a $Z$ boson. The measurement is done using 20.2 fb$^{-1}$ of proton-proton collision data collected at a centre-of-mass energy of - $\sqrt{s} = 8$ TeV by the ATLAS experiment at the LHC in 2012. The measurement is based on charged-particle track information, - which is measured with excellent precision in the $p_\text{T}$ region relevant for the transition between the perturbative and the - non-perturbative regimes. The data distributions are corrected for detector effects, and are found to deviate from - state-of-the-art predictions in various regions of the observables.' -BibKey: Aaboud:2017hox -BibTeX: '@article{Aaboud:2017hox, - author = "Aaboud, Morad and others", - title = "{Measurement of the $k_\mathrm{t}$ splitting scales in $Z - \to \ell\ell$ events in $pp$ collisions at $\sqrt{s} = 8$ - TeV with the ATLAS detector}", - collaboration = "ATLAS", - year = "2017", - eprint = "1704.01530", - archivePrefix = "arXiv", - primaryClass = "hep-ex", - reportNumber = "CERN-EP-2017-033", - SLACcitation = "%%CITATION = ARXIV:1704.01530;%%" -}' diff --git a/analyses/pluginATLAS/ATLAS_2017_I1589844_EL.plot b/analyses/pluginATLAS/ATLAS_2017_I1589844_EL.plot deleted file mode 100644 --- a/analyses/pluginATLAS/ATLAS_2017_I1589844_EL.plot +++ /dev/null @@ -1,63 +0,0 @@ -# BEGIN PLOT /ATLAS_2017_I1589844_EL/d.. -Title=$Z \rightarrow e^+e^-$, $R=0.4$, charged particles only -LogY=1 -LogX=1 -XTwosidedTicks=1 -YTwosidedTicks=1 -#LeftMargin=1.5 -LegendXPos=0.95 -LegendAlign=r -# END PLOT - -# BEGIN PLOT /ATLAS_2017_I1589844_EL/d..-x01-y03 -Title=$Z \rightarrow e^+e^-$, $R=1.0$, charged particles only -# END PLOT - -# BEGIN PLOT /ATLAS_2017_I1589844_EL/d..-x01-y05 -Title=$Z \rightarrow e^+e^-$, $R=0.4$, charged and neutral particles -# END PLOT - -# BEGIN PLOT /ATLAS_2017_I1589844_EL/d..-x01-y07 -Title=$Z \rightarrow e^+e^-$, $R=1.0$, charged and neutral particles -# END PLOT - -# BEGIN PLOT /ATLAS_2017_I1589844_EL/d01 -YLabel=$\frac{\text{d}\sigma}{\text{d}\sqrt{d_0}}$ [$\text{pb}\,\text{GeV}^{-1}$] -XLabel=$\sqrt{d_0}$ [GeV] -# END PLOT - -# BEGIN PLOT /ATLAS_2017_I1589844_EL/d02 -YLabel=$\frac{\text{d}\sigma}{\text{d}\sqrt{d_1}}$ [$\text{pb}\,\text{GeV}^{-1}$] -XLabel=$\sqrt{d_1}$ [GeV] -# END PLOT - -# BEGIN PLOT /ATLAS_2017_I1589844_EL/d03 -YLabel=$\frac{\text{d}\sigma}{\text{d}\sqrt{d_2}}$ [$\text{pb}\,\text{GeV}^{-1}$] -XLabel=$\sqrt{d_2}$ [GeV] -# END PLOT - -# BEGIN PLOT /ATLAS_2017_I1589844_EL/d04 -YLabel=$\frac{\text{d}\sigma}{\text{d}\sqrt{d_3}}$ [$\text{pb}\,\text{GeV}^{-1}$] -XLabel=$\sqrt{d_3}$ [GeV] -# END PLOT - -# BEGIN PLOT /ATLAS_2017_I1589844_EL/d05 -YLabel=$\frac{\text{d}\sigma}{\text{d}\sqrt{d_4}}$ [$\text{pb}\,\text{GeV}^{-1}$] -XLabel=$\sqrt{d_4}$ [GeV] -# END PLOT - -# BEGIN PLOT /ATLAS_2017_I1589844_EL/d06 -YLabel=$\frac{\text{d}\sigma}{\text{d}\sqrt{d_5}}$ [$\text{pb}\,\text{GeV}^{-1}$] -XLabel=$\sqrt{d_5}$ [GeV] -# END PLOT - -# BEGIN PLOT /ATLAS_2017_I1589844_EL/d07 -YLabel=$\frac{\text{d}\sigma}{\text{d}\sqrt{d_6}}$ [$\text{pb}\,\text{GeV}^{-1}$] -XLabel=$\sqrt{d_6}$ [GeV] -# END PLOT - -# BEGIN PLOT /ATLAS_2017_I1589844_EL/d08 -YLabel=$\frac{\text{d}\sigma}{\text{d}\sqrt{d_7}}$ [$\text{pb}\,\text{GeV}^{-1}$] -XLabel=$\sqrt{d_7}$ [GeV] -# END PLOT - diff --git a/analyses/pluginATLAS/ATLAS_2017_I1589844_MU.info b/analyses/pluginATLAS/ATLAS_2017_I1589844_MU.info deleted file mode 100644 --- a/analyses/pluginATLAS/ATLAS_2017_I1589844_MU.info +++ /dev/null @@ -1,43 +0,0 @@ -Name: ATLAS_2017_I1589844_MU -Year: 2017 -Summary: $k_T$ splittings in $Z$ events at 8 TeV, muon mode -Experiment: ATLAS -Collider: LHC -InspireID: 1589844 -Status: VALIDATED -Authors: - - Christian Gutschow - - Frank Siegert -References: - - arXiv:1704.01530 [hep-ex] - - submitted to JHEP -Keywords: - - zboson - - jets -RunInfo: - '$pp \to Z(\to ee/\mu\mu) +$ jets at 8 TeV' -Luminosity_fb: 20.2 -Beams: [p+, p+] -Energies: [8000] -PtCuts: [25, 25, 0.4] -Description: - 'A measurement of the splitting scales occuring in the $k_\text{t}$ jet-clustering algorithm is presented for final states containing - a $Z$ boson. The measurement is done using 20.2 fb$^{-1}$ of proton-proton collision data collected at a centre-of-mass energy of - $\sqrt{s} = 8$ TeV by the ATLAS experiment at the LHC in 2012. The measurement is based on charged-particle track information, - which is measured with excellent precision in the $p_\text{T}$ region relevant for the transition between the perturbative and the - non-perturbative regimes. The data distributions are corrected for detector effects, and are found to deviate from - state-of-the-art predictions in various regions of the observables.' -BibKey: Aaboud:2017hox -BibTeX: '@article{Aaboud:2017hox, - author = "Aaboud, Morad and others", - title = "{Measurement of the $k_\mathrm{t}$ splitting scales in $Z - \to \ell\ell$ events in $pp$ collisions at $\sqrt{s} = 8$ - TeV with the ATLAS detector}", - collaboration = "ATLAS", - year = "2017", - eprint = "1704.01530", - archivePrefix = "arXiv", - primaryClass = "hep-ex", - reportNumber = "CERN-EP-2017-033", - SLACcitation = "%%CITATION = ARXIV:1704.01530;%%" -}' diff --git a/analyses/pluginATLAS/ATLAS_2017_I1589844_MU.plot b/analyses/pluginATLAS/ATLAS_2017_I1589844_MU.plot deleted file mode 100644 --- a/analyses/pluginATLAS/ATLAS_2017_I1589844_MU.plot +++ /dev/null @@ -1,63 +0,0 @@ -# BEGIN PLOT /ATLAS_2017_I1589844_MU/d.. -Title=$Z \rightarrow \mu^+\mu^-$, $R=0.4$, charged particles only -LogY=1 -LogX=1 -XTwosidedTicks=1 -YTwosidedTicks=1 -#LeftMargin=1.5 -LegendXPos=0.95 -LegendAlign=r -# END PLOT - -# BEGIN PLOT /ATLAS_2017_I1589844_MU/d..-x01-y04 -Title=$Z \rightarrow \mu^+\mu^-$, $R=1.0$, charged particles only -# END PLOT - -# BEGIN PLOT /ATLAS_2017_I1589844_MU/d..-x01-y06 -Title=$Z \rightarrow \mu^+\mu^-$, $R=0.4$, charged and neutral particles -# END PLOT - -# BEGIN PLOT /ATLAS_2017_I1589844_MU/d..-x01-y08 -Title=$Z \rightarrow \mu^+\mu^-$, $R=1.0$, charged and neutral particles -# END PLOT - -# BEGIN PLOT /ATLAS_2017_I1589844_MU/d01 -YLabel=$\frac{\text{d}\sigma}{\text{d}\sqrt{d_0}}$ [$\text{pb}\,\text{GeV}^{-1}$] -XLabel=$\sqrt{d_0}$ [GeV] -# END PLOT - -# BEGIN PLOT /ATLAS_2017_I1589844_MU/d02 -YLabel=$\frac{\text{d}\sigma}{\text{d}\sqrt{d_1}}$ [$\text{pb}\,\text{GeV}^{-1}$] -XLabel=$\sqrt{d_1}$ [GeV] -# END PLOT - -# BEGIN PLOT /ATLAS_2017_I1589844_MU/d03 -YLabel=$\frac{\text{d}\sigma}{\text{d}\sqrt{d_2}}$ [$\text{pb}\,\text{GeV}^{-1}$] -XLabel=$\sqrt{d_2}$ [GeV] -# END PLOT - -# BEGIN PLOT /ATLAS_2017_I1589844_MU/d04 -YLabel=$\frac{\text{d}\sigma}{\text{d}\sqrt{d_3}}$ [$\text{pb}\,\text{GeV}^{-1}$] -XLabel=$\sqrt{d_3}$ [GeV] -# END PLOT - -# BEGIN PLOT /ATLAS_2017_I1589844_MU/d05 -YLabel=$\frac{\text{d}\sigma}{\text{d}\sqrt{d_4}}$ [$\text{pb}\,\text{GeV}^{-1}$] -XLabel=$\sqrt{d_4}$ [GeV] -# END PLOT - -# BEGIN PLOT /ATLAS_2017_I1589844_MU/d06 -YLabel=$\frac{\text{d}\sigma}{\text{d}\sqrt{d_5}}$ [$\text{pb}\,\text{GeV}^{-1}$] -XLabel=$\sqrt{d_5}$ [GeV] -# END PLOT - -# BEGIN PLOT /ATLAS_2017_I1589844_MU/d07 -YLabel=$\frac{\text{d}\sigma}{\text{d}\sqrt{d_6}}$ [$\text{pb}\,\text{GeV}^{-1}$] -XLabel=$\sqrt{d_6}$ [GeV] -# END PLOT - -# BEGIN PLOT /ATLAS_2017_I1589844_MU/d08 -YLabel=$\frac{\text{d}\sigma}{\text{d}\sqrt{d_7}}$ [$\text{pb}\,\text{GeV}^{-1}$] -XLabel=$\sqrt{d_7}$ [GeV] -# END PLOT -