[Rivet] ATLAS_2012_I1094564 - another ATLAS analysis to be included into Rivet

[Roman Lysak]

    Dear Rivet authors,

we have prepared another analysis from Atlas experiment which we would 
like to include into Rivet.
We validated that the routine produces consistent results comparing to 
results in the paper.
All necessary information can be found in the attachment.

Please let me know if anything else is required.

Thanks,
   Roman Lysak
-------------- next part --------------
An HTML attachment was scrubbed...
URL: <http://www.hepforge.org/lists-archive/rivet/attachments/20130423/6cc8f8f2/attachment.html>
-------------- next part --------------
A non-text attachment was scrubbed...
Name: ATLAS_2012_I1094564.aida
Type: text/xml
Size: 121769 bytes
Desc: not available
URL: <http://www.hepforge.org/lists-archive/rivet/attachments/20130423/6cc8f8f2/attachment.xml>
-------------- next part --------------
A non-text attachment was scrubbed...
Name: ATLAS_2012_I1094564.cc
Type: text/x-c++src
Size: 16046 bytes
Desc: not available
URL: <http://www.hepforge.org/lists-archive/rivet/attachments/20130423/6cc8f8f2/attachment.cc>
-------------- next part --------------
A non-text attachment was scrubbed...
Name: ATLAS_2012_I1094564.info
Type: application/x-info
Size: 1791 bytes
Desc: not available
URL: <http://www.hepforge.org/lists-archive/rivet/attachments/20130423/6cc8f8f2/attachment.info>
-------------- next part --------------
# BEGIN PLOT /ATLAS_2012_I1094564/d01-x01-y01
Title=Cambridge-Aachen jets, R=1.2,  $200~\text{GeV} < p_{T} < 300~\text{GeV}$
XLabel=Jet mass [GeV]
YLabel=$1/\sigma \text{d}\sigma/\text{d}m$~[GeV$^{-1}$]
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d02-x01-y01
Title=Cambridge-Aachen jets, R=1.2, $300~\text{GeV} < p_{T} < 400~\text{GeV}$
XLabel=Jet mass [GeV]
YLabel=$1/\sigma \text{d}\sigma/\text{d}m$~[GeV$^{-1}$]
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d03-x01-y01
Title=Cambridge-Aachen jets, R=1.2, $400~\text{GeV} < p_{T} < 500~\text{GeV}$
XLabel=Jet mass [GeV]
YLabel=$1/\sigma \text{d}\sigma/\text{d}m$~[GeV$^{-1}$]
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d04-x01-y01
Title=Cambridge-Aachen jets, R=1.2, $500~\text{GeV} < p_{T} < 600~\text{GeV}$
XLabel=Jet mass [GeV]
YLabel=$1/\sigma \text{d}\sigma/\text{d}m$~[GeV$^{-1}$]
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d05-x01-y01
Title=Cambridge-Aachen filtered jets, R=1.2, $200~\text{GeV} < p_{T} < 300~\text{GeV}$
XLabel=Jet mass [GeV]
YLabel=$1/\sigma \text{d}\sigma/\text{d}m$~[GeV$^{-1}$]
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d06-x01-y01
Title=Cambridge-Aachen filtered jets, R=1.2, $300~\text{GeV} < p_{T} < 400~\text{GeV}$
XLabel=Jet mass [GeV]
YLabel=$1/\sigma \text{d}\sigma/\text{d}m$~[GeV$^{-1}$]
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d07-x01-y01
Title=Cambridge-Aachen filtered jets, R=1.2, $400~\text{GeV} < p_{T} < 500~\text{GeV}$
XLabel=Jet mass [GeV]
YLabel=$1/\sigma \text{d}\sigma/\text{d}m$~[GeV$^{-1}$]
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d08-x01-y01
Title=Cambridge-Aachen filtered jets, R=1.2, $500~\text{GeV} < p_{T} < 600~\text{GeV}$
XLabel=Jet mass [GeV]
YLabel=$1/\sigma \text{d}\sigma/\text{d}m$~[GeV$^{-1}$]
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d09-x01-y01
Title=anti-$k_{T}$ jets, R=1.0, $200~\text{GeV} < p_{T} < 300~\text{GeV}$
XLabel=Jet mass [GeV]
YLabel=$1/\sigma \text{d}\sigma/\text{d}m$~[GeV$^{-1}$]
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d10-x01-y01
Title=anti-$k_{T}$ jets, R=1.0, $300~\text{GeV} < p_{T} < 400~\text{GeV}$
XLabel=Jet mass [GeV]
YLabel=$1/\sigma \text{d}\sigma/\text{d}m$~[GeV$^{-1}$]
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d11-x01-y01
Title=anti-$k_{T}$ jets, R=1.0, $400~\text{GeV} < p_{T} < 500~\text{GeV}$
XLabel=Jet mass [GeV]
YLabel=$1/\sigma \text{d}\sigma/\text{d}m$~[GeV$^{-1}$]
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d12-x01-y01
Title=anti-$k_{T}$ jets, R=1.0, $500~\text{GeV} < p_{T} < 600~\text{GeV}$
XLabel=Jet mass [GeV]
YLabel=$1/\sigma \text{d}\sigma/\text{d}m$~[GeV$^{-1}$]
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d13-x01-y01
Title=anti-$k_{T}$ jets, R=1.0, $200~\text{GeV} < p_{T} < 300~\text{GeV}$
XLabel=$\sqrt{d_{12}}$ [GeV]
YLabel=$1/\sigma \text{d}\sigma/\text{d}\sqrt{d_{12}}$~[GeV$^{-1}$]
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d14-x01-y01
Title=anti-$k_{T}$ jets, R=1.0, $300~\text{GeV} < p_{T} < 400~\text{GeV}$
XLabel=$\sqrt{d_{12}}$ [GeV]
YLabel=$1/\sigma \text{d}\sigma/\text{d}\sqrt{d_{12}}$~[GeV$^{-1}$]
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d15-x01-y01
Title=anti-$k_{T}$ jets, R=1.0, $400~\text{GeV} < p_{T} < 500~\text{GeV}$
XLabel=$\sqrt{d_{12}}$ [GeV]
YLabel=$1/\sigma \text{d}\sigma/\text{d}\sqrt{d_{12}}$~[GeV$^{-1}$]
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d16-x01-y01
Title=anti-$k_{T}$ jets, R=1.0, $500~\text{GeV} < p_{T} < 600~\text{GeV}$
XLabel=$\sqrt{d_{12}}$ [GeV]
YLabel=$1/\sigma \text{d}\sigma/\text{d}\sqrt{d_{12}}$~[GeV$^{-1}$]
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d17-x01-y01
Title=anti-$k_{T}$ jets, R=1.0, $200~\text{GeV} < p_{T} < 300~\text{GeV}$
XLabel=$\sqrt{d_{23}}$ [GeV]
YLabel=$1/\sigma \text{d}\sigma/\text{d}\sqrt{d_{23}}$~[GeV$^{-1}$]
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d18-x01-y01
Title=anti-$k_{T}$ jets, R=1.0, $300~\text{GeV} < p_{T} < 400~\text{GeV}$
XLabel=$\sqrt{d_{23}}$ [GeV]
YLabel=$1/\sigma \text{d}\sigma/\text{d}\sqrt{d_{23}}$~[GeV$^{-1}$]
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d19-x01-y01
Title=anti-$k_{T}$ jets, R=1.0, $400~\text{GeV} < p_{T} < 500~\text{GeV}$
XLabel=$\sqrt{d_{23}}$ [GeV]
YLabel=$1/\sigma \text{d}\sigma/\text{d}\sqrt{d_{23}}$~[GeV$^{-1}$]
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d20-x01-y01
Title=anti-$k_{T}$ jets, R=1.0, $500~\text{GeV} < p_{T} < 600~\text{GeV}$
XLabel=$\sqrt{d_{23}}$ [GeV]
YLabel=$1/\sigma \text{d}\sigma/\text{d}\sqrt{d_{23}}$~[GeV$^{-1}$]
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d21-x01-y01
Title=Cambridge-Aachen jets, R=1.2,  $200~\text{GeV} < p_{T} < 300~\text{GeV}$
XLabel=$N$-subjettiness $\tau_{21}$
YLabel=$1/\sigma \text{d}\sigma/\text{d}\tau_{21}$
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d22-x01-y01
Title=Cambridge-Aachen jets, R=1.2,  $300~\text{GeV} < p_{T} < 400~\text{GeV}$
XLabel=$N$-subjettiness $\tau_{21}$
YLabel=$1/\sigma \text{d}\sigma/\text{d}\tau_{21}$
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d23-x01-y01
Title=Cambridge-Aachen jets, R=1.2,  $400~\text{GeV} < p_{T} < 500~\text{GeV}$
XLabel=$N$-subjettiness $\tau_{21}$
YLabel=$1/\sigma \text{d}\sigma/\text{d}\tau_{21}$
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d24-x01-y01
Title=Cambridge-Aachen jets, R=1.2,  $500~\text{GeV} < p_{T} < 600~\text{GeV}$
XLabel=$N$-subjettiness $\tau_{21}$
YLabel=$1/\sigma \text{d}\sigma/\text{d}\tau_{21}$
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d25-x01-y01
Title=Cambridge-Aachen jets, R=1.2,  $200~\text{GeV} < p_{T} < 300~\text{GeV}$
XLabel=$N$-subjettiness $\tau_{32}$
YLabel=$1/\sigma \text{d}\sigma/\text{d}\tau_{32}$
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d26-x01-y01
Title=Cambridge-Aachen jets, R=1.2,  $300~\text{GeV} < p_{T} < 400~\text{GeV}$
XLabel=$N$-subjettiness $\tau_{32}$
YLabel=$1/\sigma \text{d}\sigma/\text{d}\tau_{32}$
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d27-x01-y01
Title=Cambridge-Aachen jets, R=1.2,  $400~\text{GeV} < p_{T} < 500~\text{GeV}$
XLabel=$N$-subjettiness $\tau_{32}$
YLabel=$1/\sigma \text{d}\sigma/\text{d}\tau_{32}$
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d28-x01-y01
Title=Cambridge-Aachen jets, R=1.2,  $500~\text{GeV} < p_{T} < 600~\text{GeV}$
XLabel=$N$-subjettiness $\tau_{32}$
YLabel=$1/\sigma \text{d}\sigma/\text{d}\tau_{32}$
LogY=0
# END PLOT


# BEGIN PLOT /ATLAS_2012_I1094564/d29-x01-y01
Title=anti $k_{T}$ jets, R=1.0,  $200~\text{GeV} < p_{T} < 300~\text{GeV}$
XLabel=$N$-subjettiness $\tau_{21}$
YLabel=$1/\sigma \text{d}\sigma/\text{d}\tau_{21}$
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d30-x01-y01
Title=anti $k_{T}$ jets, R=1.0,  $300~\text{GeV} < p_{T} < 400~\text{GeV}$
XLabel=$N$-subjettiness $\tau_{21}$
YLabel=$1/\sigma \text{d}\sigma/\text{d}\tau_{21}$
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d31-x01-y01
Title=anti $k_{T}$ jets, R=1.0,  $400~\text{GeV} < p_{T} < 500~\text{GeV}$
XLabel=$N$-subjettiness $\tau_{21}$
YLabel=$1/\sigma \text{d}\sigma/\text{d}\tau_{21}$
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d32-x01-y01
Title=anti $k_{T}$ jets, R=1.0,  $500~\text{GeV} < p_{T} < 600~\text{GeV}$
XLabel=$N$-subjettiness $\tau_{21}$
YLabel=$1/\sigma \text{d}\sigma/\text{d}\tau_{21}$
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d33-x01-y01
Title=anti $k_{T}$ jets, R=1.0,  $200~\text{GeV} < p_{T} < 300~\text{GeV}$
XLabel=$N$-subjettiness $\tau_{32}$
YLabel=$1/\sigma \text{d}\sigma/\text{d}\tau_{32}$
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d34-x01-y01
Title=anti $k_{T}$ jets, R=1.0,  $300~\text{GeV} < p_{T} < 400~\text{GeV}$
XLabel=$N$-subjettiness $\tau_{32}$
YLabel=$1/\sigma \text{d}\sigma/\text{d}\tau_{32}$
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d35-x01-y01
Title=anti $k_{T}$ jets, R=1.0,  $400~\text{GeV} < p_{T} < 500~\text{GeV}$
XLabel=$N$-subjettiness $\tau_{32}$
YLabel=$1/\sigma \text{d}\sigma/\text{d}\tau_{32}$
LogY=0
# END PLOT

# BEGIN PLOT /ATLAS_2012_I1094564/d36-x01-y01
Title=anti $k_{T}$ jets, R=1.0,  $500~\text{GeV} < p_{T} < 600~\text{GeV}$
XLabel=$N$-subjettiness $\tau_{32}$
YLabel=$1/\sigma \text{d}\sigma/\text{d}\tau_{32}$
LogY=0
# END PLOT