[Rivet-svn] r2688 - in trunk: data/plotinfo src/Analyses

[blackhole at projects.hepforge.org]

Author: fsiegert
Date: Wed Sep  1 14:32:53 2010
New Revision: 2688

Log:
Add two more observables to MC_WWJETS.
Fix plot IDs in .plot files.

Modified:
   trunk/data/plotinfo/MC_WWJETS.plot
   trunk/data/plotinfo/MC_ZZJETS.plot
   trunk/src/Analyses/MC_WWJETS.cc

Modified: trunk/data/plotinfo/MC_WWJETS.plot
==============================================================================
--- trunk/data/plotinfo/MC_WWJETS.plot	Wed Sep  1 10:59:50 2010	(r2687)
+++ trunk/data/plotinfo/MC_WWJETS.plot	Wed Sep  1 14:32:53 2010	(r2688)
@@ -154,6 +154,20 @@
 LegendYPos=0.5
 # END PLOT
 
+# BEGIN PLOT /MC_WWJETS/jets_dphi_12
+Title=Azimuthal decorrelation of leading and second leading jet
+XLabel=$\Delta{\phi}(\text{jet 1, jet 2})$
+YLabel=$\text{d}\sigma/\text{d}\Delta{\phi}(\text{jet 1, jet 2})$ [pb]
+LegendXPos=0.55
+LegendYPos=0.5
+# END PLOT
+
+# BEGIN PLOT /MC_WWJETS/jets_m_12
+Title=Invariant mass of leading and second leading jet
+XLabel=$m_{12}$ [GeV]
+YLabel=$\text{d}\sigma/\text{d}m_{12}$ [pb/GeV]
+# END PLOT
+
 # BEGIN PLOT /MC_WWJETS/HT
 Title=HT
 XLabel=$H_T$ [GeV]
@@ -161,7 +175,7 @@
 LogX=1
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jets_dR_12
+# BEGIN PLOT /MC_WWJETS/jets_dR_12
 Title=Separation between leading and second leading jet
 XLabel=$\Delta{R}(\text{jet 1, jet 2})$
 YLabel=$\text{d}\sigma/\text{d}\Delta{R}(\text{jet 1, jet 2})$ [pb]
@@ -169,193 +183,193 @@
 LegendYPos=0.5
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jets_dR_13
+# BEGIN PLOT /MC_WWJETS/jets_dR_13
 Title=
 XLabel=$\Delta{R}(\text{jet 1, jet 3})$
 YLabel=$\text{d}\sigma/\text{d}\Delta{R}(\text{jet 1, jet 3})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jets_dR_14
+# BEGIN PLOT /MC_WWJETS/jets_dR_14
 Title=
 XLabel=$\Delta{R}(\text{jet 1, jet 4})$
 YLabel=$\text{d}\sigma/\text{d}\Delta{R}(\text{jet 1, jet 4})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jets_dR_23
+# BEGIN PLOT /MC_WWJETS/jets_dR_23
 Title=
 XLabel=$\Delta{R}(\text{jet 2, jet 3})$
 YLabel=$\text{d}\sigma/\text{d}\Delta{R}(\text{jet 2, jet 3})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jets_dR_24
+# BEGIN PLOT /MC_WWJETS/jets_dR_24
 Title=
 XLabel=$\Delta{R}(\text{jet 2, jet 4})$
 YLabel=$\text{d}\sigma/\text{d}\Delta{R}(\text{jet 2, jet 4})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jets_dR_34
+# BEGIN PLOT /MC_WWJETS/jets_dR_34
 Title=
 XLabel=$\Delta{R}(\text{jet 3, jet 4})$
 YLabel=$\text{d}\sigma/\text{d}\Delta{R}(\text{jet 3, jet 4})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jets_deta_12
+# BEGIN PLOT /MC_WWJETS/jets_deta_12
 Title=
 XLabel=$\Delta\eta(\text{jet 1, jet 2})$
 YLabel=$\text{d}\sigma/\text{d}\Delta\eta(\text{jet 1, jet 2})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jets_deta_13
+# BEGIN PLOT /MC_WWJETS/jets_deta_13
 Title=
 XLabel=$\Delta\eta(\text{jet 1, jet 3})$
 YLabel=$\text{d}\sigma/\text{d}\Delta\eta(\text{jet 1, jet 3})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jets_deta_14
+# BEGIN PLOT /MC_WWJETS/jets_deta_14
 Title=
 XLabel=$\Delta\eta(\text{jet 1, jet 4})$
 YLabel=$\text{d}\sigma/\text{d}\Delta\eta(\text{jet 1, jet 4})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jets_deta_23
+# BEGIN PLOT /MC_WWJETS/jets_deta_23
 Title=
 XLabel=$\Delta\eta(\text{jet 2, jet 3})$
 YLabel=$\text{d}\sigma/\text{d}\Delta\eta(\text{jet 2, jet 3})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jets_deta_24
+# BEGIN PLOT /MC_WWJETS/jets_deta_24
 Title=
 XLabel=$\Delta\eta(\text{jet 2, jet 4})$
 YLabel=$\text{d}\sigma/\text{d}\Delta\eta(\text{jet 2, jet 4})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jets_deta_34
+# BEGIN PLOT /MC_WWJETS/jets_deta_34
 Title=
 XLabel=$\Delta\eta(\text{jet 3, jet 4})$
 YLabel=$\text{d}\sigma/\text{d}\Delta\eta(\text{jet 3, jet 4})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_eta_1
+# BEGIN PLOT /MC_WWJETS/jet_eta_1
 Title=Pseudorapidity of leading jet
 XLabel=$\eta(\text{jet 1})$
 YLabel=$\text{d}\sigma/\text{d}\eta(\text{jet 1})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_eta_2
+# BEGIN PLOT /MC_WWJETS/jet_eta_2
 Title=Pseudorapidity of second jet
 XLabel=$\eta(\text{jet 2})$
 YLabel=$\text{d}\sigma/\text{d}\eta(\text{jet 2})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_eta_3
+# BEGIN PLOT /MC_WWJETS/jet_eta_3
 Title=Pseudorapidity of third jet
 XLabel=$\eta(\text{jet 3})$
 YLabel=$\text{d}\sigma/\text{d}\eta(\text{jet 3})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_eta_4
+# BEGIN PLOT /MC_WWJETS/jet_eta_4
 Title=Pseudorapidity of fourth jet
 XLabel=$\eta(\text{jet 4})$
 YLabel=$\text{d}\sigma/\text{d}\eta(\text{jet 4})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_eta_pmratio_1
+# BEGIN PLOT /MC_WWJETS/jet_eta_pmratio_1
 Title=Pseudorapidity $+/-$ ratio of first jet
 XLabel=$\eta(\text{jet 1})_+/\eta(\text{jet 1})_-$
 YLabel=$|\eta(\text{jet 1}|$
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_eta_pmratio_2
+# BEGIN PLOT /MC_WWJETS/jet_eta_pmratio_2
 Title=Pseudorapidity $+/-$ ratio of second jet
 XLabel=$\eta(\text{jet 2})_+/\eta(\text{jet 2})_-$
 YLabel=$|\eta(\text{jet 2}|$
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_eta_pmratio_3
+# BEGIN PLOT /MC_WWJETS/jet_eta_pmratio_3
 Title=Pseudorapidity $+/-$ ratio of third jet
 XLabel=$\eta(\text{jet 3})_+/\eta(\text{jet 3})_-$
 YLabel=$|\eta(\text{jet 3}|$
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_eta_pmratio_4
+# BEGIN PLOT /MC_WWJETS/jet_eta_pmratio_4
 Title=Pseudorapidity $+/-$ ratio of fourth jet
 XLabel=$\eta(\text{jet 4})_+/\eta(\text{jet 4})_-$
 YLabel=$|\eta(\text{jet 4}|$
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_y_1
+# BEGIN PLOT /MC_WWJETS/jet_y_1
 Title=Rapidity of first jet
 XLabel=$y(\text{jet 1})$
 YLabel=$\text{d}\sigma/\text{d}y(\text{jet 1})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_y_2
+# BEGIN PLOT /MC_WWJETS/jet_y_2
 Title=Rapidity of second jet
 XLabel=$y(\text{jet 2})$
 YLabel=$\text{d}\sigma/\text{d}y(\text{jet 2})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_y_3
+# BEGIN PLOT /MC_WWJETS/jet_y_3
 Title=Rapidity of third jet
 XLabel=$y(\text{jet 3})$
 YLabel=$\text{d}\sigma/\text{d}y(\text{jet 3})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_y_4
+# BEGIN PLOT /MC_WWJETS/jet_y_4
 Title=Rapidity of fourth jet
 XLabel=$y(\text{jet 4})$
 YLabel=$\text{d}\sigma/\text{d}y(\text{jet 4})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_y_pmratio_1
+# BEGIN PLOT /MC_WWJETS/jet_y_pmratio_1
 Title=Rapidity $+/-$ ratio of first jet
 XLabel=$y(\text{jet 1})_+/y(\text{jet 1})_-$
 YLabel=$|y(\text{jet 1}|$
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_y_pmratio_2
+# BEGIN PLOT /MC_WWJETS/jet_y_pmratio_2
 Title=Rapidity $+/-$ ratio of second jet
 XLabel=$y(\text{jet 2})_+/y(\text{jet 2})_-$
 YLabel=$|y(\text{jet 2}|$
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_y_pmratio_3
+# BEGIN PLOT /MC_WWJETS/jet_y_pmratio_3
 Title=Rapidity $+/-$ ratio of third jet
 XLabel=$y(\text{jet 3})_+/y(\text{jet 3})_-$
 YLabel=$|y(\text{jet 3}|$
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_y_pmratio_4
+# BEGIN PLOT /MC_WWJETS/jet_y_pmratio_4
 Title=Rapidity $+/-$ ratio of fourth jet
 XLabel=$y(\text{jet 4})_+/y(\text{jet 4})_-$
 YLabel=$|y(\text{jet 4}|$
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_mass_1
+# BEGIN PLOT /MC_WWJETS/jet_mass_1
 Title=Mass of first jet
 XLabel=$m(\text{jet 1})$
 YLabel=$\text{d}\sigma/\text{d}m(\text{jet 1})$ [pb/GeV]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_mass_2
+# BEGIN PLOT /MC_WWJETS/jet_mass_2
 Title=Mass of second jet
 XLabel=$m(\text{jet 2})$
 YLabel=$\text{d}\sigma/\text{d}m(\text{jet 2})$ [pb/GeV]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_mass_3
+# BEGIN PLOT /MC_WWJETS/jet_mass_3
 Title=Mass of third jet
 XLabel=$m(\text{jet 3})$
 YLabel=$\text{d}\sigma/\text{d}m(\text{jet 3})$ [pb/GeV]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_mass_4
+# BEGIN PLOT /MC_WWJETS/jet_mass_4
 Title=Mass of fourth jet
 XLabel=$m(\text{jet 4})$
 YLabel=$\text{d}\sigma/\text{d}m(\text{jet 4})$ [pb/GeV]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_multi_exclusive
+# BEGIN PLOT /MC_WWJETS/jet_multi_exclusive
 Title=Exclusive jet multiplicity
 XLabel=$N_{\text{jet}}$
 YLabel=$\sigma(N_{\text{jet}})$ [pb]
@@ -364,7 +378,7 @@
 ErrorBands=1
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_multi_inclusive
+# BEGIN PLOT /MC_WWJETS/jet_multi_inclusive
 Title=Inclusive jet multiplicity
 XLabel=$N_{\text{jet}}$
 YLabel=$\sigma(\geq N_{\text{jet}})$ [pb]
@@ -373,7 +387,7 @@
 ErrorBands=1
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_multi_ratio
+# BEGIN PLOT /MC_WWJETS/jet_multi_ratio
 Title=Ratio of jet multiplicity
 XLabel=$N_{\text{jet}}$
 YLabel=$\sigma(\geq N_{\text{jet}})/\sigma(\geq N_{\text{jet}}-1)$
@@ -383,7 +397,7 @@
 ErrorBands=1
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/log10_R_0
+# BEGIN PLOT /MC_WWJETS/log10_R_0
 Title=$\log_{10}$(Integrated $0$ jet rate in $k_\perp$ [GeV])
 XLabel=$\log_{10}(d_{\text{cut}}/\text{GeV})$
 YLabel=$R_{0}$
@@ -392,35 +406,35 @@
 LegendXPos=1.2
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/log10_R_1
+# BEGIN PLOT /MC_WWJETS/log10_R_1
 Title=$\log_{10}$(Integrated $1$ jet rate in $k_\perp$ [GeV])
 XLabel=$\log_{10}(d_{\text{cut}}/\text{GeV})$
 YLabel=$R_{1}$
 Rebin=2
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/log10_R_2
+# BEGIN PLOT /MC_WWJETS/log10_R_2
 Title=$\log_{10}$(Integrated $2$ jet rate in $k_\perp$ [GeV])
 XLabel=$\log_{10}(d_{\text{cut}}/\text{GeV})$
 YLabel=$R_{2}$
 Rebin=2
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/log10_R_3
+# BEGIN PLOT /MC_WWJETS/log10_R_3
 Title=$\log_{10}$(Integrated $3$ jet rate in $k_\perp$ [GeV])
 XLabel=$\log_{10}(d_{\text{cut}}/\text{GeV})$
 YLabel=$R_{3}$
 Rebin=2
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/log10_R_4
+# BEGIN PLOT /MC_WWJETS/log10_R_4
 Title=$\log_{10}$(Integrated $4$ jet rate in $k_\perp$ [GeV])
 XLabel=$\log_{10}(d_{\text{cut}}/\text{GeV})$
 YLabel=$R_{\geq4}$
 Rebin=2
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/log10_d_01
+# BEGIN PLOT /MC_WWJETS/log10_d_01
 Title=$\log_{10}$($k_\perp$ jet resolution $0 \to 1$ [GeV])
 XLabel=$\log_{10}(d_{01}/\text{GeV})$
 YLabel=$\text{d}\sigma/\text{d}\log_{10}(d_{01}/\text{GeV})$ [pb]
@@ -429,7 +443,7 @@
 Rebin=2
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/log10_d_12
+# BEGIN PLOT /MC_WWJETS/log10_d_12
 Title=$\log_{10}$($k_\perp$ jet resolution $1 \to 2$ [GeV])
 XLabel=$\log_{10}(d_{12}/\text{GeV})$
 YLabel=$\text{d}\sigma/\text{d}\log_{10}(d_{12}/\text{GeV})$ [pb]
@@ -438,7 +452,7 @@
 Rebin=2
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/log10_d_23
+# BEGIN PLOT /MC_WWJETS/log10_d_23
 Title=$\log_{10}$($k_\perp$ jet resolution $2 \to 3$ [GeV])
 XLabel=$\log_{10}(d_{23}/\text{GeV})$
 YLabel=$\text{d}\sigma/\text{d}\log_{10}(d_{23}/\text{GeV})$ [pb]
@@ -447,7 +461,7 @@
 Rebin=2
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/log10_d_34
+# BEGIN PLOT /MC_WWJETS/log10_d_34
 Title=$\log_{10}$($k_\perp$ jet resolution $3 \to 4$ [GeV])
 XLabel=$\log_{10}(d_{34}/\text{GeV})$
 YLabel=$\text{d}\sigma/\text{d}\log_{10}(d_{34}/\text{GeV})$ [pb]
@@ -456,7 +470,7 @@
 Rebin=2
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_pT_1
+# BEGIN PLOT /MC_WWJETS/jet_pT_1
 Title=Transverse momentum of leading jet
 XLabel=$p_\perp(\text{jet 1})$ [GeV]
 YLabel=$\text{d}\sigma/\text{d}p_\perp(\text{jet 1})$ [pb/GeV]
@@ -466,7 +480,7 @@
 XMin=20.0
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_pT_2
+# BEGIN PLOT /MC_WWJETS/jet_pT_2
 Title=Transverse momentum of second jet
 XLabel=$p_\perp(\text{jet 2})$ [GeV]
 YLabel=$\text{d}\sigma/\text{d}p_\perp(\text{jet 2})$ [pb/GeV]
@@ -476,7 +490,7 @@
 XMin=20.0
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_pT_3
+# BEGIN PLOT /MC_WWJETS/jet_pT_3
 Title=Transverse momentum of third jet
 XLabel=$p_\perp(\text{jet 3})$ [GeV]
 YLabel=$\text{d}\sigma/\text{d}p_\perp(\text{jet 3})$ [pb/GeV]
@@ -486,7 +500,7 @@
 XMin=20.0
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_pT_4
+# BEGIN PLOT /MC_WWJETS/jet_pT_4
 Title=Transverse momentum of fourth jet
 XLabel=$p_\perp(\text{jet 4})$ [GeV]
 YLabel=$\text{d}\sigma/\text{d}p_\perp(\text{jet 4})$ [pb/GeV]

Modified: trunk/data/plotinfo/MC_ZZJETS.plot
==============================================================================
--- trunk/data/plotinfo/MC_ZZJETS.plot	Wed Sep  1 10:59:50 2010	(r2687)
+++ trunk/data/plotinfo/MC_ZZJETS.plot	Wed Sep  1 14:32:53 2010	(r2688)
@@ -160,7 +160,7 @@
 LegendYPos=0.5
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jets_dR_12
+# BEGIN PLOT /MC_ZZJETS/jets_dR_12
 Title=Separation between leading and second leading jet
 XLabel=$\Delta{R}(\text{jet 1, jet 2})$
 YLabel=$\text{d}\sigma/\text{d}\Delta{R}(\text{jet 1, jet 2})$ [pb]
@@ -168,193 +168,193 @@
 LegendYPos=0.5
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jets_dR_13
+# BEGIN PLOT /MC_ZZJETS/jets_dR_13
 Title=
 XLabel=$\Delta{R}(\text{jet 1, jet 3})$
 YLabel=$\text{d}\sigma/\text{d}\Delta{R}(\text{jet 1, jet 3})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jets_dR_14
+# BEGIN PLOT /MC_ZZJETS/jets_dR_14
 Title=
 XLabel=$\Delta{R}(\text{jet 1, jet 4})$
 YLabel=$\text{d}\sigma/\text{d}\Delta{R}(\text{jet 1, jet 4})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jets_dR_23
+# BEGIN PLOT /MC_ZZJETS/jets_dR_23
 Title=
 XLabel=$\Delta{R}(\text{jet 2, jet 3})$
 YLabel=$\text{d}\sigma/\text{d}\Delta{R}(\text{jet 2, jet 3})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jets_dR_24
+# BEGIN PLOT /MC_ZZJETS/jets_dR_24
 Title=
 XLabel=$\Delta{R}(\text{jet 2, jet 4})$
 YLabel=$\text{d}\sigma/\text{d}\Delta{R}(\text{jet 2, jet 4})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jets_dR_34
+# BEGIN PLOT /MC_ZZJETS/jets_dR_34
 Title=
 XLabel=$\Delta{R}(\text{jet 3, jet 4})$
 YLabel=$\text{d}\sigma/\text{d}\Delta{R}(\text{jet 3, jet 4})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jets_deta_12
+# BEGIN PLOT /MC_ZZJETS/jets_deta_12
 Title=
 XLabel=$\Delta\eta(\text{jet 1, jet 2})$
 YLabel=$\text{d}\sigma/\text{d}\Delta\eta(\text{jet 1, jet 2})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jets_deta_13
+# BEGIN PLOT /MC_ZZJETS/jets_deta_13
 Title=
 XLabel=$\Delta\eta(\text{jet 1, jet 3})$
 YLabel=$\text{d}\sigma/\text{d}\Delta\eta(\text{jet 1, jet 3})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jets_deta_14
+# BEGIN PLOT /MC_ZZJETS/jets_deta_14
 Title=
 XLabel=$\Delta\eta(\text{jet 1, jet 4})$
 YLabel=$\text{d}\sigma/\text{d}\Delta\eta(\text{jet 1, jet 4})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jets_deta_23
+# BEGIN PLOT /MC_ZZJETS/jets_deta_23
 Title=
 XLabel=$\Delta\eta(\text{jet 2, jet 3})$
 YLabel=$\text{d}\sigma/\text{d}\Delta\eta(\text{jet 2, jet 3})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jets_deta_24
+# BEGIN PLOT /MC_ZZJETS/jets_deta_24
 Title=
 XLabel=$\Delta\eta(\text{jet 2, jet 4})$
 YLabel=$\text{d}\sigma/\text{d}\Delta\eta(\text{jet 2, jet 4})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jets_deta_34
+# BEGIN PLOT /MC_ZZJETS/jets_deta_34
 Title=
 XLabel=$\Delta\eta(\text{jet 3, jet 4})$
 YLabel=$\text{d}\sigma/\text{d}\Delta\eta(\text{jet 3, jet 4})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_eta_1
+# BEGIN PLOT /MC_ZZJETS/jet_eta_1
 Title=Pseudorapidity of leading jet
 XLabel=$\eta(\text{jet 1})$
 YLabel=$\text{d}\sigma/\text{d}\eta(\text{jet 1})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_eta_2
+# BEGIN PLOT /MC_ZZJETS/jet_eta_2
 Title=Pseudorapidity of second jet
 XLabel=$\eta(\text{jet 2})$
 YLabel=$\text{d}\sigma/\text{d}\eta(\text{jet 2})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_eta_3
+# BEGIN PLOT /MC_ZZJETS/jet_eta_3
 Title=Pseudorapidity of third jet
 XLabel=$\eta(\text{jet 3})$
 YLabel=$\text{d}\sigma/\text{d}\eta(\text{jet 3})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_eta_4
+# BEGIN PLOT /MC_ZZJETS/jet_eta_4
 Title=Pseudorapidity of fourth jet
 XLabel=$\eta(\text{jet 4})$
 YLabel=$\text{d}\sigma/\text{d}\eta(\text{jet 4})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_eta_pmratio_1
+# BEGIN PLOT /MC_ZZJETS/jet_eta_pmratio_1
 Title=Pseudorapidity $+/-$ ratio of first jet
 XLabel=$\eta(\text{jet 1})_+/\eta(\text{jet 1})_-$
 YLabel=$|\eta(\text{jet 1}|$
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_eta_pmratio_2
+# BEGIN PLOT /MC_ZZJETS/jet_eta_pmratio_2
 Title=Pseudorapidity $+/-$ ratio of second jet
 XLabel=$\eta(\text{jet 2})_+/\eta(\text{jet 2})_-$
 YLabel=$|\eta(\text{jet 2}|$
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_eta_pmratio_3
+# BEGIN PLOT /MC_ZZJETS/jet_eta_pmratio_3
 Title=Pseudorapidity $+/-$ ratio of third jet
 XLabel=$\eta(\text{jet 3})_+/\eta(\text{jet 3})_-$
 YLabel=$|\eta(\text{jet 3}|$
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_eta_pmratio_4
+# BEGIN PLOT /MC_ZZJETS/jet_eta_pmratio_4
 Title=Pseudorapidity $+/-$ ratio of fourth jet
 XLabel=$\eta(\text{jet 4})_+/\eta(\text{jet 4})_-$
 YLabel=$|\eta(\text{jet 4}|$
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_y_1
+# BEGIN PLOT /MC_ZZJETS/jet_y_1
 Title=Rapidity of first jet
 XLabel=$y(\text{jet 1})$
 YLabel=$\text{d}\sigma/\text{d}y(\text{jet 1})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_y_2
+# BEGIN PLOT /MC_ZZJETS/jet_y_2
 Title=Rapidity of second jet
 XLabel=$y(\text{jet 2})$
 YLabel=$\text{d}\sigma/\text{d}y(\text{jet 2})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_y_3
+# BEGIN PLOT /MC_ZZJETS/jet_y_3
 Title=Rapidity of third jet
 XLabel=$y(\text{jet 3})$
 YLabel=$\text{d}\sigma/\text{d}y(\text{jet 3})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_y_4
+# BEGIN PLOT /MC_ZZJETS/jet_y_4
 Title=Rapidity of fourth jet
 XLabel=$y(\text{jet 4})$
 YLabel=$\text{d}\sigma/\text{d}y(\text{jet 4})$ [pb]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_y_pmratio_1
+# BEGIN PLOT /MC_ZZJETS/jet_y_pmratio_1
 Title=Rapidity $+/-$ ratio of first jet
 XLabel=$y(\text{jet 1})_+/y(\text{jet 1})_-$
 YLabel=$|y(\text{jet 1}|$
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_y_pmratio_2
+# BEGIN PLOT /MC_ZZJETS/jet_y_pmratio_2
 Title=Rapidity $+/-$ ratio of second jet
 XLabel=$y(\text{jet 2})_+/y(\text{jet 2})_-$
 YLabel=$|y(\text{jet 2}|$
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_y_pmratio_3
+# BEGIN PLOT /MC_ZZJETS/jet_y_pmratio_3
 Title=Rapidity $+/-$ ratio of third jet
 XLabel=$y(\text{jet 3})_+/y(\text{jet 3})_-$
 YLabel=$|y(\text{jet 3}|$
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_y_pmratio_4
+# BEGIN PLOT /MC_ZZJETS/jet_y_pmratio_4
 Title=Rapidity $+/-$ ratio of fourth jet
 XLabel=$y(\text{jet 4})_+/y(\text{jet 4})_-$
 YLabel=$|y(\text{jet 4}|$
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_mass_1
+# BEGIN PLOT /MC_ZZJETS/jet_mass_1
 Title=Mass of first jet
 XLabel=$m(\text{jet 1})$
 YLabel=$\text{d}\sigma/\text{d}m(\text{jet 1})$ [pb/GeV]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_mass_2
+# BEGIN PLOT /MC_ZZJETS/jet_mass_2
 Title=Mass of second jet
 XLabel=$m(\text{jet 2})$
 YLabel=$\text{d}\sigma/\text{d}m(\text{jet 2})$ [pb/GeV]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_mass_3
+# BEGIN PLOT /MC_ZZJETS/jet_mass_3
 Title=Mass of third jet
 XLabel=$m(\text{jet 3})$
 YLabel=$\text{d}\sigma/\text{d}m(\text{jet 3})$ [pb/GeV]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_mass_4
+# BEGIN PLOT /MC_ZZJETS/jet_mass_4
 Title=Mass of fourth jet
 XLabel=$m(\text{jet 4})$
 YLabel=$\text{d}\sigma/\text{d}m(\text{jet 4})$ [pb/GeV]
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_multi_exclusive
+# BEGIN PLOT /MC_ZZJETS/jet_multi_exclusive
 Title=Exclusive jet multiplicity
 XLabel=$N_{\text{jet}}$
 YLabel=$\sigma(N_{\text{jet}})$ [pb]
@@ -363,7 +363,7 @@
 ErrorBands=1
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_multi_inclusive
+# BEGIN PLOT /MC_ZZJETS/jet_multi_inclusive
 Title=Inclusive jet multiplicity
 XLabel=$N_{\text{jet}}$
 YLabel=$\sigma(\geq N_{\text{jet}})$ [pb]
@@ -372,7 +372,7 @@
 ErrorBands=1
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_multi_ratio
+# BEGIN PLOT /MC_ZZJETS/jet_multi_ratio
 Title=Ratio of jet multiplicity
 XLabel=$N_{\text{jet}}$
 YLabel=$\sigma(\geq N_{\text{jet}})/\sigma(\geq N_{\text{jet}}-1)$
@@ -382,7 +382,7 @@
 ErrorBands=1
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/log10_R_0
+# BEGIN PLOT /MC_ZZJETS/log10_R_0
 Title=$\log_{10}$(Integrated $0$ jet rate in $k_\perp$ [GeV])
 XLabel=$\log_{10}(d_{\text{cut}}/\text{GeV})$
 YLabel=$R_{0}$
@@ -391,35 +391,35 @@
 LegendXPos=1.2
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/log10_R_1
+# BEGIN PLOT /MC_ZZJETS/log10_R_1
 Title=$\log_{10}$(Integrated $1$ jet rate in $k_\perp$ [GeV])
 XLabel=$\log_{10}(d_{\text{cut}}/\text{GeV})$
 YLabel=$R_{1}$
 Rebin=2
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/log10_R_2
+# BEGIN PLOT /MC_ZZJETS/log10_R_2
 Title=$\log_{10}$(Integrated $2$ jet rate in $k_\perp$ [GeV])
 XLabel=$\log_{10}(d_{\text{cut}}/\text{GeV})$
 YLabel=$R_{2}$
 Rebin=2
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/log10_R_3
+# BEGIN PLOT /MC_ZZJETS/log10_R_3
 Title=$\log_{10}$(Integrated $3$ jet rate in $k_\perp$ [GeV])
 XLabel=$\log_{10}(d_{\text{cut}}/\text{GeV})$
 YLabel=$R_{3}$
 Rebin=2
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/log10_R_4
+# BEGIN PLOT /MC_ZZJETS/log10_R_4
 Title=$\log_{10}$(Integrated $4$ jet rate in $k_\perp$ [GeV])
 XLabel=$\log_{10}(d_{\text{cut}}/\text{GeV})$
 YLabel=$R_{\geq4}$
 Rebin=2
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/log10_d_01
+# BEGIN PLOT /MC_ZZJETS/log10_d_01
 Title=$\log_{10}$($k_\perp$ jet resolution $0 \to 1$ [GeV])
 XLabel=$\log_{10}(d_{01}/\text{GeV})$
 YLabel=$\text{d}\sigma/\text{d}\log_{10}(d_{01}/\text{GeV})$ [pb]
@@ -428,7 +428,7 @@
 Rebin=2
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/log10_d_12
+# BEGIN PLOT /MC_ZZJETS/log10_d_12
 Title=$\log_{10}$($k_\perp$ jet resolution $1 \to 2$ [GeV])
 XLabel=$\log_{10}(d_{12}/\text{GeV})$
 YLabel=$\text{d}\sigma/\text{d}\log_{10}(d_{12}/\text{GeV})$ [pb]
@@ -437,7 +437,7 @@
 Rebin=2
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/log10_d_23
+# BEGIN PLOT /MC_ZZJETS/log10_d_23
 Title=$\log_{10}$($k_\perp$ jet resolution $2 \to 3$ [GeV])
 XLabel=$\log_{10}(d_{23}/\text{GeV})$
 YLabel=$\text{d}\sigma/\text{d}\log_{10}(d_{23}/\text{GeV})$ [pb]
@@ -446,7 +446,7 @@
 Rebin=2
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/log10_d_34
+# BEGIN PLOT /MC_ZZJETS/log10_d_34
 Title=$\log_{10}$($k_\perp$ jet resolution $3 \to 4$ [GeV])
 XLabel=$\log_{10}(d_{34}/\text{GeV})$
 YLabel=$\text{d}\sigma/\text{d}\log_{10}(d_{34}/\text{GeV})$ [pb]
@@ -455,7 +455,7 @@
 Rebin=2
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_pT_1
+# BEGIN PLOT /MC_ZZJETS/jet_pT_1
 Title=Transverse momentum of leading jet
 XLabel=$p_\perp(\text{jet 1})$ [GeV]
 YLabel=$\text{d}\sigma/\text{d}p_\perp(\text{jet 1})$ [pb/GeV]
@@ -465,7 +465,7 @@
 XMin=20.0
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_pT_2
+# BEGIN PLOT /MC_ZZJETS/jet_pT_2
 Title=Transverse momentum of second jet
 XLabel=$p_\perp(\text{jet 2})$ [GeV]
 YLabel=$\text{d}\sigma/\text{d}p_\perp(\text{jet 2})$ [pb/GeV]
@@ -475,7 +475,7 @@
 XMin=20.0
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_pT_3
+# BEGIN PLOT /MC_ZZJETS/jet_pT_3
 Title=Transverse momentum of third jet
 XLabel=$p_\perp(\text{jet 3})$ [GeV]
 YLabel=$\text{d}\sigma/\text{d}p_\perp(\text{jet 3})$ [pb/GeV]
@@ -485,7 +485,7 @@
 XMin=20.0
 # END PLOT
 
-# BEGIN PLOT /MC_ZJETS/jet_pT_4
+# BEGIN PLOT /MC_ZZJETS/jet_pT_4
 Title=Transverse momentum of fourth jet
 XLabel=$p_\perp(\text{jet 4})$ [GeV]
 YLabel=$\text{d}\sigma/\text{d}p_\perp(\text{jet 4})$ [pb/GeV]

Modified: trunk/src/Analyses/MC_WWJETS.cc
==============================================================================
--- trunk/src/Analyses/MC_WWJETS.cc	Wed Sep  1 10:59:50 2010	(r2687)
+++ trunk/src/Analyses/MC_WWJETS.cc	Wed Sep  1 14:32:53 2010	(r2688)
@@ -77,6 +77,8 @@
 
       // global stuff
       _h_HT = bookHistogram1D("HT", logBinEdges(100, 100.0, 0.5*sqrtS()));
+      _h_jets_dphi_12 = bookHistogram1D("jets_dphi_12", 25.0, 0.0, PI);
+      _h_jets_m_12 = bookHistogram1D("jets_m_12", logBinEdges(100, 1.0, 0.25*sqrtS()));
 
       MC_JetAnalysis::init();
     }
@@ -174,6 +176,13 @@
       }
       if (HT>0.0) _h_HT->fill(HT, weight);
 
+      if (jets.size()>1) {
+        FourMomentum jet1(jets[0].momentum());
+        FourMomentum jet2(jets[1].momentum());
+        _h_jets_dphi_12->fill(mapAngle0ToPi(jet1.phi()-jet2.phi()), weight);
+        _h_jets_m_12->fill(FourMomentum(jet1+jet2).mass(), weight);
+      }
+
       MC_JetAnalysis::analyze(e);
     }
 
@@ -202,6 +211,8 @@
       scale(_h_WW_jet1_deta, norm);
       scale(_h_WW_jet1_dR, norm);
       scale(_h_We_jet1_dR, norm);
+      scale(_h_jets_dphi_12, norm);
+      scale(_h_jets_m_12, norm);
       scale(_h_HT, norm);
 
       MC_JetAnalysis::finalize();
@@ -235,6 +246,8 @@
     AIDA::IHistogram1D * _h_WW_jet1_deta;
     AIDA::IHistogram1D * _h_WW_jet1_dR;
     AIDA::IHistogram1D * _h_We_jet1_dR;
+    AIDA::IHistogram1D * _h_jets_dphi_12;
+    AIDA::IHistogram1D * _h_jets_m_12;
     AIDA::IHistogram1D * _h_HT;
     //@}