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[Rivet-svn] r3922 - branches/2012-06-aidarivet branches/2012-06-aidarivet/data/plotinfo trunk trunk/data/plotinfoblackhole at projects.hepforge.org blackhole at projects.hepforge.orgTue Sep 4 15:27:50 BST 2012
Author: hoeth Date: Tue Sep 4 15:27:49 2012 New Revision: 3922 Log: Fix plot labels in CMS_2011_S9120041 Modified: branches/2012-06-aidarivet/ChangeLog branches/2012-06-aidarivet/data/plotinfo/CMS_2011_S9120041.plot trunk/ChangeLog trunk/data/plotinfo/CMS_2011_S9120041.plot Modified: branches/2012-06-aidarivet/ChangeLog ============================================================================== --- branches/2012-06-aidarivet/ChangeLog Tue Sep 4 14:56:32 2012 (r3921) +++ branches/2012-06-aidarivet/ChangeLog Tue Sep 4 15:27:49 2012 (r3922) @@ -1,3 +1,7 @@ +2012-07-17 Hendrik Hoeth <hendrik.hoeth at cern.ch> + + * Cleanup and multiple fixes in CMS_2011_S9120041 + 2012-08-09 Andy Buckley <andy.buckley at cern.ch> * Fixing aida2root command-line help message and converting to TH* Modified: branches/2012-06-aidarivet/data/plotinfo/CMS_2011_S9120041.plot ============================================================================== --- branches/2012-06-aidarivet/data/plotinfo/CMS_2011_S9120041.plot Tue Sep 4 14:56:32 2012 (r3921) +++ branches/2012-06-aidarivet/data/plotinfo/CMS_2011_S9120041.plot Tue Sep 4 15:27:49 2012 (r3922) @@ -1,93 +1,82 @@ -# BEGIN PLOT /CMS_2011_S9120041/d01-x01-y01 -Title= Profile $\text{N}_\text{ch}$ at $\sqrt{s}$ = 7 TeV, $ 60 < | \Delta \phi | < 120$ -XLabel=Leading Track-jet $\text{p}_T$ [GeV/c] -YLabel=$(1/N_\text{ev})\; \text{d}N_\text{ch}/\Delta \eta \Delta (\Delta \phi) $ -FullRange=1 +# BEGIN PLOT /CMS_2011_S9120041/d0[1-4] +XLabel=$p_\perp$ (leading track-jet) [GeV] LogY=0 # END PLOT + +# BEGIN PLOT /CMS_2011_S9120041/d01-x01-y01 +Title=Transverse $N_\text{ch}$ density vs. $p_\perp^\text{jet 1}$, $\sqrt{s} = \text{7000~GeV}$ +YLabel=$\langle\mathrm{d}^2 N/\mathrm{d}\eta\mathrm{d}\phi\rangle$ +# END PLOT + # BEGIN PLOT /CMS_2011_S9120041/d02-x01-y01 -Title= Profile $\Sigma \text{p}_\text{T}$ at $\sqrt{s}$ = 7 TeV, $ 60 < | \Delta \phi | < 120$ -XLabel=Leading Track-jet $\text{p}_T$ [GeV/c] -YLabel=$(1/N_\text{ev})\; \text{d}\Sigma p_\text{T}/ \Delta \eta \Delta (\Delta \phi)[\text{GeV}/c]^{-1}$ -FullRange=1 -LogY=0 +Title=Transverse $\sum{p_\perp}$ density vs. $p_\perp^\text{jet 1}$, $\sqrt{s} = \text{7000~GeV}$ +YLabel=$\langle\mathrm{d}^2 \sum{p_\perp}/\mathrm{d}\eta\mathrm{d}\phi\rangle$ [GeV] # END PLOT + # BEGIN PLOT /CMS_2011_S9120041/d03-x01-y01 -Title= Profile $\text{N}_\text{ch}$ at $\sqrt{s}$ = 0.9 TeV, $ 60 < | \Delta \phi | < 120$ -XLabel=Leading Track-jet $\text{p}_T$ [GeV/c] -YLabel=$(1/N_\text{ev})\; \text{d}N_\text{ch}/\Delta \eta \Delta (\Delta \phi) $ -FullRange=1 -LogY=0 +Title=Transverse $N_\text{ch}$ density vs. $p_\perp^\text{jet 1}$, $\sqrt{s} = \text{900~GeV}$ +YLabel=$\langle\mathrm{d}^2 N/\mathrm{d}\eta\mathrm{d}\phi\rangle$ # END PLOT + # BEGIN PLOT /CMS_2011_S9120041/d04-x01-y01 -Title= Profile $\Sigma \text{p}_\text{T}$ at $\sqrt{s}$ = 0.9 TeV, $ 60 < | \Delta \phi | < 120$ -XLabel=Leading Track-jet $\text{p}_T$ [GeV/c] -YLabel=$(1/N_\text{ev})\; \text{d}\Sigma p_\text{T}/ \Delta \eta \Delta (\Delta \phi)[\text{GeV}/c]^{-1}$ -FullRange=1 -LogY=0 +Title=Transverse $\sum{p_\perp}$ density vs. $p_\perp^\text{jet 1}$, $\sqrt{s} = \text{900~GeV}$ +YLabel=$\langle\mathrm{d}^2 \sum{p_\perp}/\mathrm{d}\eta\mathrm{d}\phi\rangle$ [GeV] # END PLOT -# BEGIN PLOT /CMS_2011_S9120041/d05-x01-y01 -Title= Distribution $\text{N}_\text{ch}$ at 7 TeV, max $p_\text{T} > 20$ GeV/c + + + +# BEGIN PLOT /CMS_2011_S9120041/d(05|08|11) XLabel=$N_\text{ch}$ -YLabel=$(1/N_\text{ev})\; \text{d}N_\text{ev} / \text{d} N_\text{ch}$ -FullRange=1 -LogY=1 +YLabel=$1/\sigma \, \mathrm{d}\sigma/\mathrm{d}N_\text{ch}$ # END PLOT -# BEGIN PLOT /CMS_2011_S9120041/d06-x01-y01 -Title= Distribution $\Sigma \text{p}_\text{T}$ at 7 TeV, max $p_\text{T} > 20$ GeV/c -XLabel=$\Sigma p_\text{T}$ $[\text{GeV}/c]$ -YLabel=$(1/N_\text{ev})\; \text{d}N_\text{ev} / \text{d} \Sigma p_\text{T}$ $[\text{GeV}/c]^{-1}$ -FullRange=1 -LogY=1 -# END PLOT -# BEGIN PLOT /CMS_2011_S9120041/d07-x01-y01 -Title= Distribution $ \text{p}_\text{T}$ at 7 TeV, max $p_\text{T} > 20$ GeV/c -XLabel=$ p_\text{T}$ $[\text{GeV}/c]$ -YLabel=$ \text{d} N_\text{ch} / \text{d}p_\text{T}$ $[\text{GeV}/c]^{-1}$ -FullRange=1 -LogY=1 +# BEGIN PLOT /CMS_2011_S9120041/d05-x01-y01 +Title=Transverse charged multiplicity, $p_\perp^\text{jet 1} > \text{3~GeV}, $\sqrt{s} = \text{7000~GeV}$ # END PLOT + # BEGIN PLOT /CMS_2011_S9120041/d08-x01-y01 -Title= Distribution $\text{N}_\text{ch}$ at 7 TeV, max $p_\text{T} > 3$ GeV/c -XLabel=$N_\text{ch}$ -YLabel=$(1/N_\text{ev})\; \text{d}N_\text{ev} / \text{d} N_\text{ch}$ -FullRange=1 -LogY=1 +Title=Transverse charged multiplicity, $p_\perp^\text{jet 1} > \text{20~GeV}, $\sqrt{s} = \text{7000~GeV}$ # END PLOT -# BEGIN PLOT /CMS_2011_S9120041/d09-x01-y01 -Title= Distribution $\Sigma \text{p}_\text{T}$ at 7 TeV, max $p_\text{T} > 3$ GeV/c -XLabel=$\Sigma p_\text{T}$ $[\text{GeV}/c]$ -YLabel=$(1/N_\text{ev})\; \text{d}N_\text{ev} / \text{d} \Sigma p_\text{T}$ $[\text{GeV}/c]^{-1}$ -FullRange=1 -LogY=1 + +# BEGIN PLOT /CMS_2011_S9120041/d11-x01-y01 +Title=Transverse charged multiplicity, $p_\perp^\text{jet 1} > \text{3~GeV}, $\sqrt{s} = \text{900~GeV}$ # END PLOT -# BEGIN PLOT /CMS_2011_S9120041/d10-x01-y01 -Title= Distribution $ \text{p}_\text{T}$ at 7 TeV, max $p_\text{T} > 3$ GeV/c -XLabel=$ p_\text{T}$ $[\text{GeV}/c]$ -YLabel=$ \text{d} N_\text{ch} / \text{d} p_\text{T}$ $[\text{GeV}/c]^{-1}$ -FullRange=1 -LogY=1 + + + +# BEGIN PLOT /CMS_2011_S9120041/d(06|09|12) +XLabel=$\sum p_\perp$ [GeV] +YLabel=$1/\sigma \, \mathrm{d}\sigma/\mathrm{d}\sum p_\perp$ [GeV$^{-1}$] # END PLOT -# BEGIN PLOT /CMS_2011_S9120041/d11-x01-y01 -Title= Distribution $\text{N}_\text{ch}$ at 0.9 TeV, max $p_\text{T} > 3$ GeV/c -XLabel=$N_\text{ch}$ -YLabel=$(1/N_\text{ev})\; \text{d} N_\text{ev} / \text{d} N_\text{ch}$ -FullRange=1 -LogY=1 + +# BEGIN PLOT /CMS_2011_S9120041/d06-x01-y01 +Title=Transverse $\sum{p_\perp}$, $p_\perp^\text{jet 1} > \text{3~GeV}, $\sqrt{s} = \text{7000~GeV}$ +# END PLOT + +# BEGIN PLOT /CMS_2011_S9120041/d09-x01-y01 +Title=Transverse $\sum{p_\perp}$, $p_\perp^\text{jet 1} > \text{20~GeV}, $\sqrt{s} = \text{7000~GeV}$ # END PLOT + # BEGIN PLOT /CMS_2011_S9120041/d12-x01-y01 -Title= Distribution $\Sigma \text{p}_\text{T}$ at 0.9 TeV, max $p_\text{T} > 3$ GeV/c -XLabel=$\Sigma p_\text{T}$ $[\text{GeV}/c]$ -YLabel=$(1/N_\text{ev})\; \text{d} N_\text{ev} / \text{d} \Sigma p_\text{T}$ $[\text{GeV}/c]^{-1}$ -FullRange=1 -LogY=1 +Title=Transverse $\sum{p_\perp}$, $p_\perp^\text{jet 1} > \text{3~GeV}, $\sqrt{s} = \text{900~GeV}$ # END PLOT + + + +# BEGIN PLOT /CMS_2011_S9120041/d(07|10|13) +XLabel=$p_\perp$ [GeV] +YLabel=$1/N_\text{ev} \, \mathrm{d}N_\text{ch} / \mathrm{d}p_\perp$ [GeV$^{-1}$] +# END PLOT + +# BEGIN PLOT /CMS_2011_S9120041/d07-x01-y01 +Title=Transverse $p_\perp$, $p_\perp^\text{jet 1} > \text{3~GeV}, $\sqrt{s} = \text{7000~GeV}$ +# END PLOT + +# BEGIN PLOT /CMS_2011_S9120041/d10-x01-y01 +Title=Transverse $p_\perp$, $p_\perp^\text{jet 1} > \text{20~GeV}, $\sqrt{s} = \text{7000~GeV}$ +# END PLOT + # BEGIN PLOT /CMS_2011_S9120041/d13-x01-y01 -Title= Distribution $ \text{p}_\text{T}$ at 0.9 TeV, max $p_\text{T} > 3$ GeV/c -XLabel=$ p_\text{T}$ $[\text{GeV}/c]$ -YLabel=$ \text{d} N_\text{ch} / \text{d} p_\text{T}$ $[\text{GeV}/c]^{-1}$ -FullRange=1 -LogY=1 +Title=Transverse $p_\perp$, $p_\perp^\text{jet 1} > \text{3~GeV}, $\sqrt{s} = \text{900~GeV}$ # END PLOT Modified: trunk/ChangeLog ============================================================================== --- trunk/ChangeLog Tue Sep 4 14:56:32 2012 (r3921) +++ trunk/ChangeLog Tue Sep 4 15:27:49 2012 (r3922) @@ -1,3 +1,7 @@ +2012-07-17 Hendrik Hoeth <hendrik.hoeth at cern.ch> + + * Cleanup and multiple fixes in CMS_2011_S9120041 + 2012-08-09 Andy Buckley <andy.buckley at cern.ch> * Fixing aida2root command-line help message and converting to TH* Modified: trunk/data/plotinfo/CMS_2011_S9120041.plot ============================================================================== --- trunk/data/plotinfo/CMS_2011_S9120041.plot Tue Sep 4 14:56:32 2012 (r3921) +++ trunk/data/plotinfo/CMS_2011_S9120041.plot Tue Sep 4 15:27:49 2012 (r3922) @@ -1,93 +1,82 @@ -# BEGIN PLOT /CMS_2011_S9120041/d01-x01-y01 -Title= Profile $\text{N}_\text{ch}$ at $\sqrt{s}$ = 7 TeV, $ 60 < | \Delta \phi | < 120$ -XLabel=Leading Track-jet $\text{p}_T$ [GeV/c] -YLabel=$(1/N_\text{ev})\; \text{d}N_\text{ch}/\Delta \eta \Delta (\Delta \phi) $ -FullRange=1 +# BEGIN PLOT /CMS_2011_S9120041/d0[1-4] +XLabel=$p_\perp$ (leading track-jet) [GeV] LogY=0 # END PLOT + +# BEGIN PLOT /CMS_2011_S9120041/d01-x01-y01 +Title=Transverse $N_\text{ch}$ density vs. $p_\perp^\text{jet 1}$, $\sqrt{s} = \text{7000~GeV}$ +YLabel=$\langle\mathrm{d}^2 N/\mathrm{d}\eta\mathrm{d}\phi\rangle$ +# END PLOT + # BEGIN PLOT /CMS_2011_S9120041/d02-x01-y01 -Title= Profile $\Sigma \text{p}_\text{T}$ at $\sqrt{s}$ = 7 TeV, $ 60 < | \Delta \phi | < 120$ -XLabel=Leading Track-jet $\text{p}_T$ [GeV/c] -YLabel=$(1/N_\text{ev})\; \text{d}\Sigma p_\text{T}/ \Delta \eta \Delta (\Delta \phi)[\text{GeV}/c]^{-1}$ -FullRange=1 -LogY=0 +Title=Transverse $\sum{p_\perp}$ density vs. $p_\perp^\text{jet 1}$, $\sqrt{s} = \text{7000~GeV}$ +YLabel=$\langle\mathrm{d}^2 \sum{p_\perp}/\mathrm{d}\eta\mathrm{d}\phi\rangle$ [GeV] # END PLOT + # BEGIN PLOT /CMS_2011_S9120041/d03-x01-y01 -Title= Profile $\text{N}_\text{ch}$ at $\sqrt{s}$ = 0.9 TeV, $ 60 < | \Delta \phi | < 120$ -XLabel=Leading Track-jet $\text{p}_T$ [GeV/c] -YLabel=$(1/N_\text{ev})\; \text{d}N_\text{ch}/\Delta \eta \Delta (\Delta \phi) $ -FullRange=1 -LogY=0 +Title=Transverse $N_\text{ch}$ density vs. $p_\perp^\text{jet 1}$, $\sqrt{s} = \text{900~GeV}$ +YLabel=$\langle\mathrm{d}^2 N/\mathrm{d}\eta\mathrm{d}\phi\rangle$ # END PLOT + # BEGIN PLOT /CMS_2011_S9120041/d04-x01-y01 -Title= Profile $\Sigma \text{p}_\text{T}$ at $\sqrt{s}$ = 0.9 TeV, $ 60 < | \Delta \phi | < 120$ -XLabel=Leading Track-jet $\text{p}_T$ [GeV/c] -YLabel=$(1/N_\text{ev})\; \text{d}\Sigma p_\text{T}/ \Delta \eta \Delta (\Delta \phi)[\text{GeV}/c]^{-1}$ -FullRange=1 -LogY=0 +Title=Transverse $\sum{p_\perp}$ density vs. $p_\perp^\text{jet 1}$, $\sqrt{s} = \text{900~GeV}$ +YLabel=$\langle\mathrm{d}^2 \sum{p_\perp}/\mathrm{d}\eta\mathrm{d}\phi\rangle$ [GeV] # END PLOT -# BEGIN PLOT /CMS_2011_S9120041/d05-x01-y01 -Title= Distribution $\text{N}_\text{ch}$ at 7 TeV, max $p_\text{T} > 20$ GeV/c + + + +# BEGIN PLOT /CMS_2011_S9120041/d(05|08|11) XLabel=$N_\text{ch}$ -YLabel=$(1/N_\text{ev})\; \text{d}N_\text{ev} / \text{d} N_\text{ch}$ -FullRange=1 -LogY=1 +YLabel=$1/\sigma \, \mathrm{d}\sigma/\mathrm{d}N_\text{ch}$ # END PLOT -# BEGIN PLOT /CMS_2011_S9120041/d06-x01-y01 -Title= Distribution $\Sigma \text{p}_\text{T}$ at 7 TeV, max $p_\text{T} > 20$ GeV/c -XLabel=$\Sigma p_\text{T}$ $[\text{GeV}/c]$ -YLabel=$(1/N_\text{ev})\; \text{d}N_\text{ev} / \text{d} \Sigma p_\text{T}$ $[\text{GeV}/c]^{-1}$ -FullRange=1 -LogY=1 -# END PLOT -# BEGIN PLOT /CMS_2011_S9120041/d07-x01-y01 -Title= Distribution $ \text{p}_\text{T}$ at 7 TeV, max $p_\text{T} > 20$ GeV/c -XLabel=$ p_\text{T}$ $[\text{GeV}/c]$ -YLabel=$ \text{d} N_\text{ch} / \text{d}p_\text{T}$ $[\text{GeV}/c]^{-1}$ -FullRange=1 -LogY=1 +# BEGIN PLOT /CMS_2011_S9120041/d05-x01-y01 +Title=Transverse charged multiplicity, $p_\perp^\text{jet 1} > \text{3~GeV}, $\sqrt{s} = \text{7000~GeV}$ # END PLOT + # BEGIN PLOT /CMS_2011_S9120041/d08-x01-y01 -Title= Distribution $\text{N}_\text{ch}$ at 7 TeV, max $p_\text{T} > 3$ GeV/c -XLabel=$N_\text{ch}$ -YLabel=$(1/N_\text{ev})\; \text{d}N_\text{ev} / \text{d} N_\text{ch}$ -FullRange=1 -LogY=1 +Title=Transverse charged multiplicity, $p_\perp^\text{jet 1} > \text{20~GeV}, $\sqrt{s} = \text{7000~GeV}$ # END PLOT -# BEGIN PLOT /CMS_2011_S9120041/d09-x01-y01 -Title= Distribution $\Sigma \text{p}_\text{T}$ at 7 TeV, max $p_\text{T} > 3$ GeV/c -XLabel=$\Sigma p_\text{T}$ $[\text{GeV}/c]$ -YLabel=$(1/N_\text{ev})\; \text{d}N_\text{ev} / \text{d} \Sigma p_\text{T}$ $[\text{GeV}/c]^{-1}$ -FullRange=1 -LogY=1 + +# BEGIN PLOT /CMS_2011_S9120041/d11-x01-y01 +Title=Transverse charged multiplicity, $p_\perp^\text{jet 1} > \text{3~GeV}, $\sqrt{s} = \text{900~GeV}$ # END PLOT -# BEGIN PLOT /CMS_2011_S9120041/d10-x01-y01 -Title= Distribution $ \text{p}_\text{T}$ at 7 TeV, max $p_\text{T} > 3$ GeV/c -XLabel=$ p_\text{T}$ $[\text{GeV}/c]$ -YLabel=$ \text{d} N_\text{ch} / \text{d} p_\text{T}$ $[\text{GeV}/c]^{-1}$ -FullRange=1 -LogY=1 + + + +# BEGIN PLOT /CMS_2011_S9120041/d(06|09|12) +XLabel=$\sum p_\perp$ [GeV] +YLabel=$1/\sigma \, \mathrm{d}\sigma/\mathrm{d}\sum p_\perp$ [GeV$^{-1}$] # END PLOT -# BEGIN PLOT /CMS_2011_S9120041/d11-x01-y01 -Title= Distribution $\text{N}_\text{ch}$ at 0.9 TeV, max $p_\text{T} > 3$ GeV/c -XLabel=$N_\text{ch}$ -YLabel=$(1/N_\text{ev})\; \text{d} N_\text{ev} / \text{d} N_\text{ch}$ -FullRange=1 -LogY=1 + +# BEGIN PLOT /CMS_2011_S9120041/d06-x01-y01 +Title=Transverse $\sum{p_\perp}$, $p_\perp^\text{jet 1} > \text{3~GeV}, $\sqrt{s} = \text{7000~GeV}$ +# END PLOT + +# BEGIN PLOT /CMS_2011_S9120041/d09-x01-y01 +Title=Transverse $\sum{p_\perp}$, $p_\perp^\text{jet 1} > \text{20~GeV}, $\sqrt{s} = \text{7000~GeV}$ # END PLOT + # BEGIN PLOT /CMS_2011_S9120041/d12-x01-y01 -Title= Distribution $\Sigma \text{p}_\text{T}$ at 0.9 TeV, max $p_\text{T} > 3$ GeV/c -XLabel=$\Sigma p_\text{T}$ $[\text{GeV}/c]$ -YLabel=$(1/N_\text{ev})\; \text{d} N_\text{ev} / \text{d} \Sigma p_\text{T}$ $[\text{GeV}/c]^{-1}$ -FullRange=1 -LogY=1 +Title=Transverse $\sum{p_\perp}$, $p_\perp^\text{jet 1} > \text{3~GeV}, $\sqrt{s} = \text{900~GeV}$ # END PLOT + + + +# BEGIN PLOT /CMS_2011_S9120041/d(07|10|13) +XLabel=$p_\perp$ [GeV] +YLabel=$1/N_\text{ev} \, \mathrm{d}N_\text{ch} / \mathrm{d}p_\perp$ [GeV$^{-1}$] +# END PLOT + +# BEGIN PLOT /CMS_2011_S9120041/d07-x01-y01 +Title=Transverse $p_\perp$, $p_\perp^\text{jet 1} > \text{3~GeV}, $\sqrt{s} = \text{7000~GeV}$ +# END PLOT + +# BEGIN PLOT /CMS_2011_S9120041/d10-x01-y01 +Title=Transverse $p_\perp$, $p_\perp^\text{jet 1} > \text{20~GeV}, $\sqrt{s} = \text{7000~GeV}$ +# END PLOT + # BEGIN PLOT /CMS_2011_S9120041/d13-x01-y01 -Title= Distribution $ \text{p}_\text{T}$ at 0.9 TeV, max $p_\text{T} > 3$ GeV/c -XLabel=$ p_\text{T}$ $[\text{GeV}/c]$ -YLabel=$ \text{d} N_\text{ch} / \text{d} p_\text{T}$ $[\text{GeV}/c]^{-1}$ -FullRange=1 -LogY=1 +Title=Transverse $p_\perp$, $p_\perp^\text{jet 1} > \text{3~GeV}, $\sqrt{s} = \text{900~GeV}$ # END PLOT
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