diff --git a/analyses/pluginALICE/ALICE_2013_I1225979.plot b/analyses/pluginALICE/ALICE_2013_I1225979.plot --- a/analyses/pluginALICE/ALICE_2013_I1225979.plot +++ b/analyses/pluginALICE/ALICE_2013_I1225979.plot @@ -1,8 +1,31 @@ # BEGIN PLOT /ALICE_2013_I1225979/d01-x01-y01 -#Title=[Uncomment and insert title for histogram d01-x01-y01 here] -#XLabel=[Uncomment and insert x-axis label for histogram d01-x01-y01 here] -#YLabel=[Uncomment and insert y-axis label for histogram d01-x01-y01 here] -# + any additional plot settings you might like, see make-plots documentation +Title=d$N_\text{ch}$/d$\eta$, $\sqrt{s}=2.76$ TeV/nn, Centrality: 0-5 \% +XLabel=$\eta$ +YLabel=$\mathrm{d}N_\text{ch} / \mathrm{d}\eta$ +LogY=0 +LogX=0 # END PLOT -# ... add more histograms as you need them ... +# BEGIN PLOT /ALICE_2013_I1225979/d01-x01-y02 +Title=d$N_\text{ch}$/d$\eta$, $\sqrt{s}=2.76$ TeV/nn, Centrality: 5-10 \% +XLabel=$\eta$ +YLabel=$\mathrm{d}N_\text{ch} / \mathrm{d}\eta$ +LogY=0 +LogX=0 +# END PLOT + +# BEGIN PLOT /ALICE_2013_I1225979/d01-x01-y03 +Title=d$N_\text{ch}$/d$\eta$, $\sqrt{s}=2.76$ TeV/nn, Centrality: 10-20 \% +XLabel=$\eta$ +YLabel=$\mathrm{d}N_\text{ch} / \mathrm{d}\eta$ +LogY=0 +LogX=0 +# END PLOT + +# BEGIN PLOT /ALICE_2013_I1225979/d01-x01-y04 +Title=d$N_\text{ch}$/d$\eta$, $\sqrt{s}=2.76$ TeV/nn, Centrality: 20-30 \% +XLabel=$\eta$ +YLabel=$\mathrm{d}N_\text{ch} / \mathrm{d}\eta$ +LogY=0 +LogX=0 +# END PLOT \ No newline at end of file diff --git a/analyses/pluginALICE/ALICE_2014_I1243865.plot b/analyses/pluginALICE/ALICE_2014_I1243865.plot --- a/analyses/pluginALICE/ALICE_2014_I1243865.plot +++ b/analyses/pluginALICE/ALICE_2014_I1243865.plot @@ -1,134 +1,134 @@ #BEGIN PLOT /ALICE_2014_I1243865/d01-x01-y01 Title=$\Xi^-$ $p_\perp$ in $|\eta| < 0.5$ with centrality $=0-10$ \%. XLabel=$p_{\rm T}$ (GeV/$c$) YLabel=$\frac{1}{N_{\rm inel}} \frac{{\rm d}^2N}{{\rm d}p_{\rm T}{\rm d}\eta}$ ($c$/GeV) #END PLOT #BEGIN PLOT /ALICE_2014_I1243865/d01-x01-y02 Title=$\bar{\Xi}$ $p_\perp$ in $|\eta| < 0.5$ with centrality $=0-10$ \%. XLabel=$p_{\rm T}$ (GeV/$c$) YLabel=$\frac{1}{N_{\rm inel}}\frac{{\rm d}^2N}{{\rm d}p_{\rm T}{\rm d}\eta}$ ($c$/GeV) #END PLOT #BEGIN PLOT /ALICE_2014_I1243865/d02-x01-y01 Title=$\Xi^-$ $p_\perp$ in $|\eta| < 0.5$ with centrality $=10-20$ \%. XLabel=$p_{\rm T}$ (GeV/$c$) YLabel=$\frac{1}{N_{\rm inel}} \frac{{\rm d}^2N}{{\rm d}p_{\rm T}{\rm d}\eta}$ ($c$/GeV) #END PLOT #BEGIN PLOT /ALICE_2014_I1243865/d02-x01-y02 Title=$\bar{\Xi}$ $p_\perp$ in $|\eta| < 0.5$ with centrality $=10-20$ \%. XLabel=$p_{\rm T}$ (GeV/$c$) YLabel=$\frac{1}{N_{\rm inel}}\frac{{\rm d}^2N}{{\rm d}p_{\rm T}{\rm d}\eta}$ ($c$/GeV) #END PLOT #BEGIN PLOT /ALICE_2014_I1243865/d03-x01-y01 Title=$\Xi^-$ $p_\perp$ in $|\eta| < 0.5$ with centrality $=20-40$ \%. XLabel=$p_{\rm T}$ (GeV/$c$) YLabel=$\frac{1}{N_{\rm inel}} \frac{{\rm d}^2N}{{\rm d}p_{\rm T}{\rm d}\eta}$ ($c$/GeV) #END PLOT #BEGIN PLOT /ALICE_2014_I1243865/d03-x01-y02 Title=$\bar{\Xi}$ $p_\perp$ in $|\eta| < 0.5$ with centrality $=20-40$ \%. XLabel=$p_{\rm T}$ (GeV/$c$) YLabel=$\frac{1}{N_{\rm inel}}\frac{{\rm d}^2N}{{\rm d}p_{\rm T}{\rm d}\eta}$ ($c$/GeV) #END PLOT #BEGIN PLOT /ALICE_2014_I1243865/d04-x01-y01 -Title=$\Xi^-$ $p_\perp$ in $|\eta| < 0.5$ with centrality $=20-40$ \%. +Title=$\Xi^-$ $p_\perp$ in $|\eta| < 0.5$ with centrality $=40-60$ \%. XLabel=$p_{\rm T}$ (GeV/$c$) YLabel=$\frac{1}{N_{\rm inel}} \frac{{\rm d}^2N}{{\rm d}p_{\rm T}{\rm d}\eta}$ ($c$/GeV) #END PLOT #BEGIN PLOT /ALICE_2014_I1243865/d04-x01-y02 Title=$\bar{\Xi}$ $p_\perp$ in $|\eta| < 0.5$ with centrality $=40-60$ \%. XLabel=$p_{\rm T}$ (GeV/$c$) YLabel=$\frac{1}{N_{\rm inel}}\frac{{\rm d}^2N}{{\rm d}p_{\rm T}{\rm d}\eta}$ ($c$/GeV) #END PLOT #BEGIN PLOT /ALICE_2014_I1243865/d05-x01-y01 Title=$\Xi^-$ $p_\perp$ in $|\eta| < 0.5$ with centrality $=60-80$ \%. XLabel=$p_{\rm T}$ (GeV/$c$) YLabel=$\frac{1}{N_{\rm inel}} \frac{{\rm d}^2N}{{\rm d}p_{\rm T}{\rm d}\eta}$ ($c$/GeV) #END PLOT #BEGIN PLOT /ALICE_2014_I1243865/d05-x01-y02 Title=$\bar{\Xi}$ $p_\perp$ in $|\eta| < 0.5$ with centrality $=60-80$ \%. XLabel=$p_{\rm T}$ (GeV/$c$) YLabel=$\frac{1}{N_{\rm inel}}\frac{{\rm d}^2N}{{\rm d}p_{\rm T}{\rm d}\eta}$ ($c$/GeV) #END PLOT #BEGIN PLOT /ALICE_2014_I1243865/d06-x01-y01 Title=$\Omega^-$ $p_\perp$ in $|\eta| < 0.5$ with centrality $=0-10$ \%. XLabel=$p_{\rm T}$ (GeV/$c$) YLabel=$\frac{1}{N_{\rm inel}} \frac{{\rm d}^2N}{{\rm d}p_{\rm T}{\rm d}\eta}$ ($c$/GeV) #END PLOT #BEGIN PLOT /ALICE_2014_I1243865/d06-x01-y02 Title=$\bar{\Omega}$ $p_\perp$ in $|\eta| < 0.5$ with centrality $=0-10$ \%. XLabel=$p_{\rm T}$ (GeV/$c$) YLabel=$\frac{1}{N_{\rm inel}}\frac{{\rm d}^2N}{{\rm d}p_{\rm T}{\rm d}\eta}$ ($c$/GeV) #END PLOT #BEGIN PLOT /ALICE_2014_I1243865/d07-x01-y01 Title=$\Omega^-$ $p_\perp$ in $|\eta| < 0.5$ with centrality $=10-20$ \%. XLabel=$p_{\rm T}$ (GeV/$c$) YLabel=$\frac{1}{N_{\rm inel}} \frac{{\rm d}^2N}{{\rm d}p_{\rm T}{\rm d}\eta}$ ($c$/GeV) #END PLOT #BEGIN PLOT /ALICE_2014_I1243865/d07-x01-y02 -Title=$\bar{\Omega}$ $p_\perp$ in $|\eta| < 0.5$ with centrality $=1-20$ \%. +Title=$\bar{\Omega}$ $p_\perp$ in $|\eta| < 0.5$ with centrality $=10-20$ \%. XLabel=$p_{\rm T}$ (GeV/$c$) YLabel=$\frac{1}{N_{\rm inel}}\frac{{\rm d}^2N}{{\rm d}p_{\rm T}{\rm d}\eta}$ ($c$/GeV) #END PLOT #BEGIN PLOT /ALICE_2014_I1243865/d08-x01-y01 Title=$\Omega^-$ $p_\perp$ in $|\eta| < 0.5$ with centrality $=20-40$ \%. XLabel=$p_{\rm T}$ (GeV/$c$) YLabel=$\frac{1}{N_{\rm inel}} \frac{{\rm d}^2N}{{\rm d}p_{\rm T}{\rm d}\eta}$ ($c$/GeV) #END PLOT #BEGIN PLOT /ALICE_2014_I1243865/d08-x01-y02 Title=$\bar{\Omega}$ $p_\perp$ in $|\eta| < 0.5$ with centrality $=20-40$ \%. XLabel=$p_{\rm T}$ (GeV/$c$) YLabel=$\frac{1}{N_{\rm inel}}\frac{{\rm d}^2N}{{\rm d}p_{\rm T}{\rm d}\eta}$ ($c$/GeV) #END PLOT #BEGIN PLOT /ALICE_2014_I1243865/d09-x01-y01 -Title=$\Omega^-$ $p_\perp$ in $|\eta| < 0.5$ with centrality $=20-40$ \%. +Title=$\Omega^-$ $p_\perp$ in $|\eta| < 0.5$ with centrality $=40-60$ \%. XLabel=$p_{\rm T}$ (GeV/$c$) YLabel=$\frac{1}{N_{\rm inel}} \frac{{\rm d}^2N}{{\rm d}p_{\rm T}{\rm d}\eta}$ ($c$/GeV) #END PLOT #BEGIN PLOT /ALICE_2014_I1243865/d09-x01-y02 Title=$\bar{\Omega}$ $p_\perp$ in $|\eta| < 0.5$ with centrality $=40-60$ \%. XLabel=$p_{\rm T}$ (GeV/$c$) YLabel=$\frac{1}{N_{\rm inel}}\frac{{\rm d}^2N}{{\rm d}p_{\rm T}{\rm d}\eta}$ ($c$/GeV) #END PLOT #BEGIN PLOT /ALICE_2014_I1243865/d10-x01-y01 Title=$\Omega^-$ $p_\perp$ in $|\eta| < 0.5$ with centrality $=60-80$ \%. XLabel=$p_{\rm T}$ (GeV/$c$) YLabel=$\frac{1}{N_{\rm inel}} \frac{{\rm d}^2N}{{\rm d}p_{\rm T}{\rm d}\eta}$ ($c$/GeV) #END PLOT #BEGIN PLOT /ALICE_2014_I1243865/d10-x01-y02 Title=$\bar{\Omega}$ $p_\perp$ in $|\eta| < 0.5$ with centrality $=60-80$ \%. XLabel=$p_{\rm T}$ (GeV/$c$) YLabel=$\frac{1}{N_{\rm inel}}\frac{{\rm d}^2N}{{\rm d}p_{\rm T}{\rm d}\eta}$ ($c$/GeV) #END PLOT #BEGIN PLOT /ALICE_2014_I1243865/d14-x01-y01 Title=$\Xi/\pi$ yield ratios as function of $\langle N_{part} \rangle$. XLabel=$\langle N_{part} \rangle$ YLabel=$N(\Xi) / N(\pi)$ LogX=0 LogY=0 #END PLOT #BEGIN PLOT /ALICE_2014_I1243865/d14-x01-y02 Title=$\Omega/\pi$ yield ratios as function of $\langle N_{part} \rangle$. XLabel=$\langle N_{part} \rangle$ YLabel=$N(\Omega) / N(\pi)$ LogX=0 LogY=0 #END PLOT diff --git a/analyses/pluginALICE/ALICE_2016_I1394676.plot b/analyses/pluginALICE/ALICE_2016_I1394676.plot --- a/analyses/pluginALICE/ALICE_2016_I1394676.plot +++ b/analyses/pluginALICE/ALICE_2016_I1394676.plot @@ -1,8 +1,47 @@ # BEGIN PLOT /ALICE_2016_I1394676/d01-x01-y01 -#Title=[Uncomment and insert title for histogram d01-x01-y01 here] -#XLabel=[Uncomment and insert x-axis label for histogram d01-x01-y01 here] -#YLabel=[Uncomment and insert y-axis label for histogram d01-x01-y01 here] -# + any additional plot settings you might like, see make-plots documentation +Title=d$N_\text{ch}$/d$\eta$, $\sqrt{s}=2.76$ TeV/nn, Centrality: 30-40 \% +XLabel=$\eta$ +YLabel=$\mathrm{d}N_\text{ch} / \mathrm{d}\eta$ +LogY=0 +LogX=0 # END PLOT -# ... add more histograms as you need them ... +# BEGIN PLOT /ALICE_2016_I1394676/d01-x01-y02 +Title=d$N_\text{ch}$/d$\eta$, $\sqrt{s}=2.76$ TeV/nn, Centrality: 40-50 \% +XLabel=$\eta$ +YLabel=$\mathrm{d}N_\text{ch} / \mathrm{d}\eta$ +LogY=0 +LogX=0 +# END PLOT + +# BEGIN PLOT /ALICE_2016_I1394676/d01-x01-y03 +Title=d$N_\text{ch}$/d$\eta$, $\sqrt{s}=2.76$ TeV/nn, Centrality: 50-60 \% +XLabel=$\eta$ +YLabel=$\mathrm{d}N_\text{ch} / \mathrm{d}\eta$ +LogY=0 +LogX=0 +# END PLOT + +# BEGIN PLOT /ALICE_2016_I1394676/d01-x01-y04 +Title=d$N_\text{ch}$/d$\eta$, $\sqrt{s}=2.76$ TeV/nn, Centrality: 60-70 \% +XLabel=$\eta$ +YLabel=$\mathrm{d}N_\text{ch} / \mathrm{d}\eta$ +LogY=0 +LogX=0 +# END PLOT + +# BEGIN PLOT /ALICE_2016_I1394676/d01-x01-y05 +Title=d$N_\text{ch}$/d$\eta$, $\sqrt{s}=2.76$ TeV/nn, Centrality: 70-80 \% +XLabel=$\eta$ +YLabel=$\mathrm{d}N_\text{ch} / \mathrm{d}\eta$ +LogY=0 +LogX=0 +# END PLOT + +# BEGIN PLOT /ALICE_2016_I1394676/d01-x01-y06 +Title=d$N_\text{ch}$/d$\eta$, $\sqrt{s}=2.76$ TeV/nn, Centrality: 80-90 \% +XLabel=$\eta$ +YLabel=$\mathrm{d}N_\text{ch} / \mathrm{d}\eta$ +LogY=0 +LogX=0 +# END PLOT