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[Rivet-svn] r2618 - trunk/data/plotinfoblackhole at projects.hepforge.org blackhole at projects.hepforge.orgTue Jul 27 19:45:26 BST 2010
Author: buckley Date: Tue Jul 27 19:45:26 2010 New Revision: 2618 Log: Improved CDF 2004 titles and legend positioning Modified: trunk/data/plotinfo/CDF_2004_S5839831.plot Modified: trunk/data/plotinfo/CDF_2004_S5839831.plot ============================================================================== --- trunk/data/plotinfo/CDF_2004_S5839831.plot Tue Jul 27 19:45:04 2010 (r2617) +++ trunk/data/plotinfo/CDF_2004_S5839831.plot Tue Jul 27 19:45:26 2010 (r2618) @@ -1,90 +1,93 @@ # BEGIN PLOT /CDF_2004_S5839831/d01-x01-y01 -Title=$\langle p_\perp^\text{max} \rangle$ vs. $E_\perp^\text{lead}$ at $\sqrt{s}$ = 1800 GeV +Title=Transverse cone $\langle \langle p_\perp^\text{max} \rangle \rangle$ vs. $E_\perp^\text{lead}$ at $\sqrt{s}$ = 1800 GeV XLabel=$E_\perp^\text{lead}$ / GeV YLabel=$\langle p_\perp^\text{max} \rangle$ / GeV LogY=0 -LegendYPos=0.5 +LegendYPos=0.4 # END PLOT # BEGIN PLOT /CDF_2004_S5839831/d01-x01-y02 -Title=$\langle p_\perp^\text{min} \rangle$ vs. $E_\perp^\text{lead}$ at $\sqrt{s}$ = 1800 GeV +Title=Transverse cone $\langle \langle p_\perp^\text{min} \rangle \rangle$ vs. $E_\perp^\text{lead}$ at $\sqrt{s}$ = 1800 GeV XLabel=$E_\perp^\text{lead}$ / GeV YLabel=$\langle p_\perp^\text{min} \rangle$ / GeV LogY=0 -LegendYPos=0.5 +LegendYPos=0.4 # END PLOT # BEGIN PLOT /CDF_2004_S5839831/d02-x01-y01 -Title=$\langle p_\perp^\text{max} \rangle$ vs. $E_\perp^\text{lead}$ at $\sqrt{s}$ = 1800 GeV +Title=Transverse cone $\langle p_\perp^\text{max} \rangle$ vs. $E_\perp^\text{lead}$ at $\sqrt{s}$ = 1800 GeV XLabel=$E_\perp^\text{lead}$ / GeV YLabel=$\langle p_\perp^\text{max} \rangle$ / GeV LogY=0 -LegendYPos=0.5 +LegendYPos=0.3 # END PLOT # BEGIN PLOT /CDF_2004_S5839831/d02-x01-y02 -Title=$\langle p_\perp^\text{min} \rangle$ vs. $E_\perp^\text{lead}$ at $\sqrt{s}$ = 1800 GeV +Title=Transverse cone $\langle p_\perp^\text{min} \rangle$ vs. $E_\perp^\text{lead}$ at $\sqrt{s}$ = 1800 GeV XLabel=$E_\perp^\text{lead}$ / GeV YLabel=$\langle p_\perp^\text{min} \rangle$ / GeV LogY=0 +LegendXPos=0.8 # END PLOT # BEGIN PLOT /CDF_2004_S5839831/d02-x01-y03 -Title=$\langle p_\perp^\text{diff} \rangle$ vs. $E_\perp^\text{lead}$ at $\sqrt{s}$ = 1800 GeV +Title=Transverse cone $\langle p_\perp^\text{diff} \rangle$ vs. $E_\perp^\text{lead}$ at $\sqrt{s}$ = 1800 GeV XLabel=$E_\perp^\text{lead}$ / GeV YLabel=$\langle p_\perp^\text{diff} \rangle$ / GeV LogY=0 -LegendYPos=0.5 +LegendXPos=0.5 +LegendYPos=0.9 # END PLOT # BEGIN PLOT /CDF_2004_S5839831/d03-x01-y01 -Title=$p_\perp$ in MAX+MIN trans. cones ($40<E_\perp^\text{lead}<80$ GeV, $\sqrt{s}$=1.8 TeV) +Title=Transverse cone $p_\perp$ ($40<E_\perp^\text{lead}<80$ GeV, $\sqrt{s}$=1.8 TeV) XLabel=$p_\perp$ / GeV YLabel=$\mathrm{d}{\sigma}/\mathrm{d}{p_\perp}$ FullRange=1 # END PLOT # BEGIN PLOT /CDF_2004_S5839831/d03-x01-y02 -Title=$p_\perp$ in MAX+MIN trans. cones ($80<E_\perp^\text{lead}<120$ GeV, $\sqrt{s}$=1.8 TeV) +Title=Transverse cone $p_\perp$ ($80<E_\perp^\text{lead}<120$ GeV, $\sqrt{s}$=1.8 TeV) XLabel=$p_\perp$ / GeV YLabel=$\mathrm{d}{\sigma}/\mathrm{d}{p_\perp}$ FullRange=1 # END PLOT # BEGIN PLOT /CDF_2004_S5839831/d03-x01-y03 -Title=$p_\perp$ in MAX+MIN trans. cones ($120<E_\perp^\text{lead}<160$ GeV, $\sqrt{s}$=1.8 TeV) +Title=Transverse cone $p_\perp$ ($120<E_\perp^\text{lead}<160$ GeV, $\sqrt{s}$=1.8 TeV) XLabel=$p_\perp$ / GeV YLabel=$\mathrm{d}{\sigma}/\mathrm{d}{p_\perp}$ FullRange=1 # END PLOT # BEGIN PLOT /CDF_2004_S5839831/d03-x01-y04 -Title=$p_\perp$ in MAX+MIN trans. cones ($160<E_\perp^\text{lead}<200$ GeV, $\sqrt{s}$=1.8 TeV) +Title=Transverse cone $p_\perp$ ($160<E_\perp^\text{lead}<200$ GeV, $\sqrt{s}$=1.8 TeV) XLabel=$p_\perp$ / GeV YLabel=$\mathrm{d}{\sigma}/\mathrm{d}{p_\perp}$ FullRange=1 # END PLOT # BEGIN PLOT /CDF_2004_S5839831/d03-x01-y05 -Title=$p_\perp$ in MAX+MIN trans. cones ($200<E_\perp^\text{lead}<270$ GeV, $\sqrt{s}$=1.8 TeV) +Title=Transverse cone $p_\perp$ ($200<E_\perp^\text{lead}<270$ GeV, $\sqrt{s}$=1.8 TeV) XLabel=$p_\perp$ / GeV YLabel=$\mathrm{d}{\sigma}/\mathrm{d}{p_\perp}$ FullRange=1 # END PLOT # BEGIN PLOT /CDF_2004_S5839831/d04-x01-y01 -Title=$N_\text{max}$ vs. $E_\perp^\text{lead}$ at $\sqrt{s}$ = 1800 GeV +Title=Transverse cone $N_\text{max}$ vs. $E_\perp^\text{lead}$ at $\sqrt{s}$ = 1800 GeV XLabel=$E_\perp^\text{lead}$ / GeV YLabel=$N_\text{max}$ LogY=0 -LegendYPos=0.5 +LegendYPos=0.4 # END PLOT # BEGIN PLOT /CDF_2004_S5839831/d04-x01-y02 -Title=$N_\text{min}$ vs. $E_\perp^\text{lead}$ at $\sqrt{s}$ = 1800 GeV +Title=Transverse cone $N_\text{min}$ vs. $E_\perp^\text{lead}$ at $\sqrt{s}$ = 1800 GeV XLabel=$E_\perp^\text{lead}$ / GeV YLabel=$N_\text{min}$ LogY=0 +LegendXPos=0.7 # END PLOT # BEGIN PLOT /CDF_2004_S5839831/d05-x01-y01 @@ -105,7 +108,7 @@ # END HISTOGRAM # BEGIN PLOT /CDF_2004_S5839831/d07-x01-y01 -Title=Swiss Cheese $p_\perp^\text{sum}$ vs. $E_\perp^\text{lead}$ (for removal of 2 jets) at $\sqrt{s}$ = 1800 GeV +Title=Swiss Cheese $p_\perp^\text{sum}$ vs. $E_\perp^\text{lead}$ (2 jets removed) at $\sqrt{s}$ = 1800 GeV XLabel=$E_\perp^\text{lead}$ / GeV YLabel=$p_\perp^\text{sum}$ / GeV (2 jets removed) LegendXPos=0.55 @@ -113,15 +116,15 @@ # END PLOT # BEGIN PLOT /CDF_2004_S5839831/d07-x01-y02 -Title=Swiss Cheese $p_\perp^\text{sum}$ vs. $E_\perp^\text{lead}$ (for removal of 3 jets) at $\sqrt{s}$ = 1800 GeV +Title=Swiss Cheese $p_\perp^\text{sum}$ vs. $E_\perp^\text{lead}$ (3 jets removed) at $\sqrt{s}$ = 1800 GeV XLabel=$E_\perp^\text{lead}$ / GeV YLabel=$p_\perp^\text{sum}$ / GeV (3 jets removed) -LegendYPos=0.5 +LegendYPos=0.3 LogY=0 # END PLOT # BEGIN PLOT /CDF_2004_S5839831/d08-x01-y01 -Title=$\langle p_\perp^\text{max} \rangle$ vs. $E_\perp^\text{lead}$ at $\sqrt{s}$ = 630 GeV +Title=Transverse cone $\langle p_\perp^\text{max} \rangle$ vs. $E_\perp^\text{lead}$ at $\sqrt{s}$ = 630 GeV XLabel=$E_\perp^\text{lead}$ / GeV YLabel=$\langle p_\perp^\text{max} \rangle$ / GeV LegendYPos=0.5 @@ -129,33 +132,33 @@ # END PLOT # BEGIN PLOT /CDF_2004_S5839831/d08-x01-y02 -Title=$\langle p_\perp^\text{min} \rangle$ vs. $E_\perp^\text{lead}$ at $\sqrt{s}$ = 630 GeV +Title=Transverse cone $\langle p_\perp^\text{min} \rangle$ vs. $E_\perp^\text{lead}$ at $\sqrt{s}$ = 630 GeV XLabel=$E_\perp^\text{lead}$ / GeV YLabel=$\langle p_\perp^\text{min} \rangle$ / GeV LogY=0 # END PLOT # BEGIN PLOT /CDF_2004_S5839831/d08-x01-y03 -Title=$\langle p_\perp^\text{diff} \rangle$ vs. $E_\perp^\text{lead}$ at $\sqrt{s}$ = 630 GeV +Title=Transverse cone $\langle p_\perp^\text{diff} \rangle$ vs. $E_\perp^\text{lead}$ at $\sqrt{s}$ = 630 GeV XLabel=$E_\perp^\text{lead}$ / GeV YLabel=$\langle p_\perp^\text{diff} \rangle$ / GeV -LegendYPos=0.5 +LegendYPos=0.45 LogY=0 # END PLOT # BEGIN PLOT /CDF_2004_S5839831/d09-x01-y01 -Title=Swiss Cheese $p_\perp^\text{sum}$ vs. $E_\perp^\text{lead}$ (for removal of 2 jets) at $\sqrt{s}$ = 630 GeV +Title=Swiss Cheese $p_\perp^\text{sum}$ vs. $E_\perp^\text{lead}$ (2 jets removed) at $\sqrt{s}$ = 630 GeV XLabel=$E_\perp^\text{lead}$ / GeV YLabel=$p_\perp^\text{sum}$ / GeV (2 jets removed) -LegendYPos=0.5 +LegendYPos=0.3 LogY=0 # END PLOT # BEGIN PLOT /CDF_2004_S5839831/d09-x01-y02 -Title=Swiss Cheese $p_\perp^\text{sum}$ vs. $E_\perp^\text{lead}$ (for removal of 3 jets) at $\sqrt{s}$ = 630 GeV +Title=Swiss Cheese $p_\perp^\text{sum}$ vs. $E_\perp^\text{lead}$ (3 jets removed) at $\sqrt{s}$ = 630 GeV XLabel=$E_\perp^\text{lead}$ / GeV YLabel=$p_\perp^\text{sum}$ / GeV (3 jets removed) -LegendYPos=0.5 +LegendYPos=0.3 LogY=0 # END PLOT @@ -174,4 +177,3 @@ # BEGIN HISTOGRAM /CDF_2004_S5839831/d11-x01-y01 ErrorBars=0 # END HISTOGRAM -
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