diff --git a/analyses/pluginATLAS/ATLAS_2014_I1306615.plot b/analyses/pluginATLAS/ATLAS_2014_I1306615.plot --- a/analyses/pluginATLAS/ATLAS_2014_I1306615.plot +++ b/analyses/pluginATLAS/ATLAS_2014_I1306615.plot @@ -1,210 +1,210 @@ # BEGIN PLOT /ATLAS_2014_I1306615/.* RatioPlotYMin=0.0 RatioPlotYMax=2.49999 # END PLOT # BEGIN PLOT /ATLAS_2014_I1306615/d01-x01-y01 Title=Diphoton transverse momentum XLabel=$p_T^{\gamma\gamma}$ [GeV] YLabel=$\mathrm{d}\sigma_{\mathrm{fid}} / \mathrm{d} p_T$ [fb/GeV] LogY=1 # END PLOT # BEGIN PLOT /ATLAS_2014_I1306615/d02-x01-y01 Title=Diphoton rapidity XLabel=$|y_{\gamma\gamma}|$ YLabel=$\mathrm{d}\sigma_{\mathrm{fid}} / \mathrm{d} |y_{\gamma\gamma}|$ [fb] LogY=0 # END PLOT # BEGIN PLOT /ATLAS_2014_I1306615/d03-x01-y01 Title=Number of jets, $p_{T}^{jet} > 30$ GeV XLabel=$N_{jets}$ YLabel=$\sigma_{\mathrm{fid}}$ [fb] LogY=0 -XCustomMajorTicks=1.0 $0$ 2.0 $1$ 3.0 $2$ 4.0 $\geq 3$ +XCustomMajorTicks=1.0 $0$ 2.0 $1$ 3.0 $2$ 4.0 $\geq3$ # END PLOT # BEGIN PLOT /ATLAS_2014_I1306615/d04-x01-y01 Title=Number of jets, $p_{T}^{jet} > 50$ GeV XLabel=$N_{jets}$ YLabel=$\sigma_{\mathrm{fid}}$ [fb] -XCustomMajorTicks=1.0 $0$ 2.0 $1$ 3.0 $2$ 4.0 $\geq 3$ +XCustomMajorTicks=1.0 $0$ 2.0 $1$ 3.0 $2$ 4.0 $\geq3$ LogY=0 # END PLOT # BEGIN PLOT /ATLAS_2014_I1306615/d05-x01-y01 Title=Leading jet $p_{T}$, $N_{jets} \ge 0$ XLabel=$p_{T}^{j1}$ [GeV] YLabel=$\mathrm{d}\sigma_{\mathrm{fid}} / \mathrm{d} p_T$ [fb/GeV] LogY=1 # END PLOT # BEGIN PLOT /ATLAS_2014_I1306615/d06-x01-y01 Title=Leading jet rapidity, $N_{jets} \ge 1$, $p_T^{jet} > 30$ GeV XLabel=$|y_{j1}|$ YLabel=$\mathrm{d}\sigma_{\mathrm{fid}} / \mathrm{d} |y|$ [fb] LogY=0 # END PLOT # BEGIN PLOT /ATLAS_2014_I1306615/d07-x01-y01 Title=Scalar sum of jet transverse momenta, $N_{jets} \ge 0$ XLabel=$H_T$ [GeV] YLabel=$\mathrm{d}\sigma_{\mathrm{fid}} / \mathrm{d} H_T$ [fb/GeV] LogY=1 # END PLOT # BEGIN PLOT /ATLAS_2014_I1306615/d08-x01-y01 Title=Subleading jet $p_{T}$, $N_{jets} \ge 1$ XLabel=$p_{T}^{j2}$ [GeV] YLabel=$\mathrm{d}\sigma_{\mathrm{fid}} / \mathrm{d} p_T$ [fb/GeV] LogY=1 # END PLOT # BEGIN PLOT /ATLAS_2014_I1306615/d09-x01-y01 Title=Dijet rapidity separation, $N_{jets} \ge 2$, $p_T^{jet} > 30$ GeV XLabel=$|\Delta y_{jj}|$ YLabel=$\mathrm{d}\sigma_{\mathrm{fid}} / \mathrm{d} |\Delta y_{jj}|$ [fb] LogY=1 # END PLOT # BEGIN PLOT /ATLAS_2014_I1306615/d10-x01-y01 Title=$\Delta \phi$ between dijet and diphoton systems, $N_{jets} \ge 2$, $p_T^{jet} > 30$ GeV XLabel=$|\Delta \phi_{\gamma\gamma - jj}|$ [rad] YLabel=$\mathrm{d}\sigma_{\mathrm{fid}} / \mathrm{d} |\Delta \phi_{\gamma\gamma - jj}|$ [fb/rad] LogY=1 #LogX=1 # END PLOT # BEGIN PLOT /ATLAS_2014_I1306615/d11-x01-y01 Title=Photon decay angle in the Collins-Soper frame XLabel=$|\cos \theta^{*}|$ YLabel=$\mathrm{d}\sigma_{\mathrm{fid}} / \mathrm{d} |\cos \theta^{*}|$ [fb] LogY=0 # END PLOT # BEGIN PLOT /ATLAS_2014_I1306615/d12-x01-y01 Title=Photon decay angle in the Collins-Soper frame XLabel=$|\cos \theta^{*}|$ YLabel=$\mathrm{d}\sigma_{\mathrm{fid}} / \mathrm{d} |\cos \theta^{*}|$ [fb] LogY=0 # END PLOT # BEGIN PLOT /ATLAS_2014_I1306615/d13-x01-y01 Title=Azimuthal angle between the leading jets, $N_{jets} \ge 2$, $p_T^{jet} > 30$ GeV XLabel=$|\Delta \phi_{jj}|$ [rad] YLabel=$\mathrm{d}\sigma_{\mathrm{fid}} / \mathrm{d} |\Delta \phi_{jj}|$ [fb/rad] LogY=0 # END PLOT # BEGIN PLOT /ATLAS_2014_I1306615/d14-x01-y01 Title=Diphoton momentum perpendicular to the diphoton thrust axis XLabel=$p_{Tt}^{\gamma\gamma}$ [GeV] YLabel=$\mathrm{d}\sigma_{\mathrm{fid}} / \mathrm{d} p_{Tt}^{\gamma\gamma}$ [fb/GeV] LogY=1 # END PLOT # BEGIN PLOT /ATLAS_2014_I1306615/d15-x01-y01 Title=Rapidity separation between the two photons XLabel=$|\Delta y_{\gamma\gamma}|$ YLabel=$\mathrm{d}\sigma_{\mathrm{fid}} / \mathrm{d} |\Delta y_{\gamma\gamma}|$ [fb] LogY=0 # END PLOT # BEGIN PLOT /ATLAS_2014_I1306615/d16-x01-y01 Title=Beam-thrust-like variable for leading jet, $N_{jet} \ge 0$,$p_T^{jet} > 25$ GeV XLabel=$\tau_{1}$ [GeV] YLabel=$\mathrm{d}\sigma_{\mathrm{fid}} / \mathrm{d} \tau_1$ [fb/GeV] LogY=1 # END PLOT # BEGIN PLOT /ATLAS_2014_I1306615/d17-x01-y01 Title=Sum of beam-thrust-like variables for jets, $N_{jet} \ge 0$,$p_T^{jet} > 25$ GeV XLabel=$\sum \tau_{i}$ [GeV] YLabel=$\mathrm{d}\sigma_{\mathrm{fid}} / \mathrm{d} \sum \tau_{i}$ [fb/GeV] LogY=1 # END PLOT # BEGIN PLOT /ATLAS_2014_I1306615/d18-x01-y01 Title=Subleading jet rapidity, $N_{jet} \ge 2$,$p_T^{jet} > 30$ GeV XLabel=$|y_{j2}|$ YLabel=$\mathrm{d}\sigma_{\mathrm{fid}} / \mathrm{d} |y_{j2}| $ [fb] LogY=0 # END PLOT # BEGIN PLOT /ATLAS_2014_I1306615/d19-x01-y01 Title=Third-leading jet transverse momentum, $N_{jet} \ge 2$, $p_T^{jet} > 30$ GeV XLabel=$|p_T^{j3}|$ [GeV] YLabel=$\mathrm{d}\sigma_{\mathrm{fid}} / \mathrm{d} p_T^{j3}| $ [fb/GeV] LogY=1 # END PLOT # BEGIN PLOT /ATLAS_2014_I1306615/d20-x01-y01 Title=Dijet invariant mass, $N_{jet} \ge 2$, $p_T^{jet} > 30$ GeV XLabel=$m_{jj}$ [GeV] YLabel=$\mathrm{d}\sigma_{\mathrm{fid}} / \mathrm{d} m_{jj}$ [fb/GeV] LogY=1 # END PLOT # BEGIN PLOT /ATLAS_2014_I1306615/d21-x01-y01 Title=$p_T$ of diphoton-dijet system, $N_{jet} \ge 2$, $p_T^{jet} > 30$ GeV XLabel=$p_T^{\gamma\gamma jj}$ [GeV] YLabel=$\mathrm{d}\sigma_{\mathrm{fid}} / \mathrm{d} p_T^{\gamma\gamma jj}$ [fb/GeV] LogY=1 # END PLOT # BEGIN PLOT /ATLAS_2014_I1306615/d22-x01-y01 Title=Photon decay angle in the Collins-Soper frame,$p_T^{\gamma\gamma}< 80$ GeV XLabel=$|\cos \theta^{*}|$ YLabel=$\mathrm{d}\sigma_{\mathrm{fid}} / \mathrm{d} |\cos \theta^{*}|$ [fb] LogY=0 # END PLOT # BEGIN PLOT /ATLAS_2014_I1306615/d22-x01-y02 Title=Photon decay angle in the Collins-Soper frame, $80 < p_T^{\gamma\gamma}< 200$ GeV XLabel=$|\cos \theta^{*}|$ YLabel=$\mathrm{d}\sigma_{\mathrm{fid}} / \mathrm{d} |\cos \theta^{*}|$ [fb] LogY=0 # END PLOT # BEGIN PLOT /ATLAS_2014_I1306615/d22-x01-y03 Title=Photon decay angle in the Collins-Soper frame, $p_T^{\gamma\gamma} > 200$ GeV XLabel=$|\cos \theta^{*}|$ YLabel=$\mathrm{d}\sigma_{\mathrm{fid}} / \mathrm{d} |\cos \theta^{*}|$ [fb] LogY=0 # END PLOT # BEGIN PLOT /ATLAS_2014_I1306615/d23-x01-y01 Title=Diphoton transverse momentum, $N_{jet} = 0$ XLabel=$p_T^{\gamma\gamma}$ [GeV] YLabel=$\mathrm{d}\sigma_{\mathrm{fid}} / \mathrm{d} p_T^{\gamma\gamma}$ [fb/GeV] LogY=0 # END PLOT # BEGIN PLOT /ATLAS_2014_I1306615/d23-x01-y02 Title=Diphoton transverse momentum, $N_{jet} = 1$ XLabel=$p_T^{\gamma\gamma}$ [GeV] YLabel=$\mathrm{d}\sigma_{\mathrm{fid}} / \mathrm{d} p_T^{\gamma\gamma}$ [fb/GeV] LogY=0 # END PLOT # BEGIN PLOT /ATLAS_2014_I1306615/d23-x01-y03 Title=Diphoton transverse momentum, $N_{jet} \ge 2$ XLabel=$p_T^{\gamma\gamma}$ [GeV] YLabel=$\mathrm{d}\sigma_{\mathrm{fid}} / \mathrm{d} p_T^{\gamma\gamma}$ [fb/GeV] LogY=0 # END PLOT # BEGIN PLOT /ATLAS_2014_I1306615/d24-x01-y01 Title=Leading jet transverse momentum, $N_{jet} = 1$ XLabel=$p_T^{j1}$ [GeV] YLabel=$\mathrm{d}\sigma_{\mathrm{fid}} / \mathrm{d} p_T^{j1}$ [fb/GeV] LogY=0 # END PLOT # BEGIN PLOT /ATLAS_2014_I1306615/d30-x01-y01 Title=Baseline, $N_{jets} \ge 1, 2, 3$, VBF, $N_{lep} \ge 1$, $E_T^{miss} \ge 80$ GeV regions XLabel=region ID YLabel=$\sigma_{\mathrm{fid}}$ [fb] LogY=1 # END PLOT diff --git a/analyses/pluginATLAS/ATLAS_2015_I1364361.info b/analyses/pluginATLAS/ATLAS_2015_I1364361.info --- a/analyses/pluginATLAS/ATLAS_2015_I1364361.info +++ b/analyses/pluginATLAS/ATLAS_2015_I1364361.info @@ -1,36 +1,36 @@ Name: ATLAS_2015_I1364361 Year: 2015 Summary: Total and differential Higgs cross sections at 8 TeV with ATLAS Experiment: ATLAS Collider: LHC InspireID: 1364361 Status: VALIDATED Authors: - Michaela Queitsch-Maitland References: - arXiv:1504.05833 RunInfo: pp Higgs production at 8 TeV, include all processes (ggH, VH, VBF, ttH), stable Higgs NumEvents: 1000000 Beams: [p+, p+] Energies: [8000] NeedsCrossSection: yes Description: 'WARNING --- this analysis requires stable higgs bosons --- - Measurements of the total and differential cross sections of Higgs boson production are performed using 20.3 fb−1 of pp collisions produced by the Large Hadron Collider at a center-of-mass energy of 8 TeV and recorded by the ATLAS detector. Cross sections are obtained from measured Higgs to diphoton and ZZ* event yields, which are combined accounting for detector efficiencies, fiducial acceptances and branching fractions. Differential cross sections are reported as a function of Higgs boson transverse momentum, Higgs boson rapidity, number of jets in the event, and transverse momentum of the leading jet. The total production cross section is determined to be 33.0 ± 5.3 (stat) ± 1.6 (sys) pb.' + Measurements of the total and differential cross sections of Higgs boson production are performed using 20.3 $\text{fb}^{-1}$ of pp collisions produced by the Large Hadron Collider at a center-of-mass energy of 8 TeV and recorded by the ATLAS detector. Cross sections are obtained from measured Higgs to diphoton and ZZ* event yields, which are combined accounting for detector efficiencies, fiducial acceptances and branching fractions. Differential cross sections are reported as a function of Higgs boson transverse momentum, Higgs boson rapidity, number of jets in the event, and transverse momentum of the leading jet. The total production cross section is determined to be $33.0 \pm 5.3 (\text{stat}) \pm 1.6 (\text{sys})$ pb.' BibKey: 'Aad:2015lha' BibTex: '@article{Aad:2015lha, author = "Aad, Georges and others", title = "{Measurements of the Total and Differential Higgs Boson Production Cross Sections Combining the $H \rightarrow \gamma \gamma$ and $H \rightarrow ZZ ^{*}\rightarrow 4\ell$ Decay Channels at $\sqrt{s}=8$ TeV with the ATLAS Detector}", collaboration = "ATLAS", year = "2015", eprint = "1504.05833", archivePrefix = "arXiv", primaryClass = "hep-ex", reportNumber = "CERN-PH-EP-2015-048", SLACcitation = "%%CITATION = ARXIV:1504.05833;%%", }'