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The distribution of the $Z$-significance of model points, weighted by the \preCMS prior density of each model point, for the individual 8\TeV searches (top left, top right and bottom left), and for 7\TeV combined and $7{+}8\TeV$ combined searches (bottom right). The leftmost bins contain the underflow entries.
The distribution of the $Z$-significance of model points, weighted by the \preCMS prior density of each model point, for the individual 8\TeV searches (top left, top right and bottom left), and for 7\TeV combined and $7{+}8\TeV$ combined searches (bottom right). The leftmost bins contain the underflow entries.
The distribution of the $Z$-significance of model points, weighted by the \preCMS prior density of each model point, for the individual 8\TeV searches (top left, top right and bottom left), and for 7\TeV combined and $7{+}8\TeV$ combined searches (bottom right). The leftmost bins contain the underflow entries.
The distribution of the $Z$-significance of model points, weighted by the \preCMS prior density of each model point, for the individual 8\TeV searches (top left, top right and bottom left), and for 7\TeV combined and $7{+}8\TeV$ combined searches (bottom right). The leftmost bins contain the underflow entries.
A summary of the impact of CMS searches on the probability density of the gluino mass in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the gluino mass (blue filled histograms) to posterior distributions after data from various CMS searches (line histograms), where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the gluino mass for various combinations of CMS data and data from Higgs boson measurements, where the shaded grey band gives the statistical uncertainty on the black histogram. The bottom-right plot shows the distribution of the gluino mass versus the $Z$-significance calculated from the combination of all searches.
A summary of the impact of CMS searches on the probability density of the gluino mass in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the gluino mass (blue filled histograms) to posterior distributions after data from various CMS searches (line histograms), where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the gluino mass for various combinations of CMS data and data from Higgs boson measurements, where the shaded grey band gives the statistical uncertainty on the black histogram. The bottom-right plot shows the distribution of the gluino mass versus the $Z$-significance calculated from the combination of all searches.
A summary of the impact of CMS searches on the probability density of the gluino mass in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the gluino mass (blue filled histograms) to posterior distributions after data from various CMS searches (line histograms), where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the gluino mass for various combinations of CMS data and data from Higgs boson measurements, where the shaded grey band gives the statistical uncertainty on the black histogram. The bottom-right plot shows the distribution of the gluino mass versus the $Z$-significance calculated from the combination of all searches.
A summary of the impact of CMS searches on the probability density of the gluino mass in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the gluino mass (blue filled histograms) to posterior distributions after data from various CMS searches (line histograms), where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the gluino mass for various combinations of CMS data and data from Higgs boson measurements, where the shaded grey band gives the statistical uncertainty on the black histogram. The bottom-right plot shows the distribution of the gluino mass versus the $Z$-significance calculated from the combination of all searches.
A summary of the impact of CMS searches on the probability density of the gluino mass in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the gluino mass (blue filled histograms) to posterior distributions after data from various CMS searches (line histograms), where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the gluino mass for various combinations of CMS data and data from Higgs boson measurements, where the shaded grey band gives the statistical uncertainty on the black histogram. The bottom-right plot shows the distribution of the gluino mass versus the $Z$-significance calculated from the combination of all searches.
A summary of the impact of CMS searches on the probability density of the gluino mass in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the gluino mass (blue filled histograms) to posterior distributions after data from various CMS searches (line histograms), where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the gluino mass for various combinations of CMS data and data from Higgs boson measurements, where the shaded grey band gives the statistical uncertainty on the black histogram. The bottom-right plot shows the distribution of the gluino mass versus the $Z$-significance calculated from the combination of all searches.
A summary of the impact of CMS searches on the probability density of the $\suL$ mass (equivalently, the $\scL$ mass) in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the $\suL$ mass to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the $\suL$ mass for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the $\suL$ mass versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading.
A summary of the impact of CMS searches on the probability density of the $\suL$ mass (equivalently, the $\scL$ mass) in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the $\suL$ mass to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the $\suL$ mass for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the $\suL$ mass versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading.
A summary of the impact of CMS searches on the probability density of the $\suL$ mass (equivalently, the $\scL$ mass) in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the $\suL$ mass to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the $\suL$ mass for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the $\suL$ mass versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading.
A summary of the impact of CMS searches on the probability density of the $\suL$ mass (equivalently, the $\scL$ mass) in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the $\suL$ mass to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the $\suL$ mass for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the $\suL$ mass versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading.
A summary of the impact of CMS searches on the probability density of the $\suL$ mass (equivalently, the $\scL$ mass) in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the $\suL$ mass to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the $\suL$ mass for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the $\suL$ mass versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading.
A summary of the impact of CMS searches on the probability density of the $\suL$ mass (equivalently, the $\scL$ mass) in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the $\suL$ mass to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the $\suL$ mass for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the $\suL$ mass versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading.
A summary of the impact of CMS searches on the probability density of the mass of the lightest colored SUSY particle (LCSP) in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the LCSP mass to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the LCSP mass for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the LCSP mass versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading.
A summary of the impact of CMS searches on the probability density of the mass of the lightest colored SUSY particle (LCSP) in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the LCSP mass to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the LCSP mass for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the LCSP mass versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading.
A summary of the impact of CMS searches on the probability density of the mass of the lightest colored SUSY particle (LCSP) in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the LCSP mass to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the LCSP mass for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the LCSP mass versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading.
A summary of the impact of CMS searches on the probability density of the mass of the lightest colored SUSY particle (LCSP) in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the LCSP mass to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the LCSP mass for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the LCSP mass versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading.
A summary of the impact of CMS searches on the probability density of the mass of the lightest colored SUSY particle (LCSP) in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the LCSP mass to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the LCSP mass for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the LCSP mass versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading.
A summary of the impact of CMS searches on the probability density of the mass of the lightest colored SUSY particle (LCSP) in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the LCSP mass to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the LCSP mass for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the LCSP mass versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading.
A summary of the impact of CMS searches on the probability density of the $\PSQt_1$ mass in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the $\PSQt_1$ mass to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the $\PSQt_1$ mass for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the $\PSQt_1$ mass versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading.
A summary of the impact of CMS searches on the probability density of the $\PSQt_1$ mass in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the $\PSQt_1$ mass to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the $\PSQt_1$ mass for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the $\PSQt_1$ mass versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading.
A summary of the impact of CMS searches on the probability density of the $\PSQt_1$ mass in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the $\PSQt_1$ mass to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the $\PSQt_1$ mass for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the $\PSQt_1$ mass versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading.
A summary of the impact of CMS searches on the probability density of the $\PSQt_1$ mass in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the $\PSQt_1$ mass to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the $\PSQt_1$ mass for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the $\PSQt_1$ mass versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading.
A summary of the impact of CMS searches on the probability density of the $\PSQt_1$ mass in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the $\PSQt_1$ mass to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the $\PSQt_1$ mass for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the $\PSQt_1$ mass versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading.
A summary of the impact of CMS searches on the probability density of the $\PSQt_1$ mass in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the $\PSQt_1$ mass to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the $\PSQt_1$ mass for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the $\PSQt_1$ mass versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading.
A summary of the impact of CMS searches on the probability density of the $\PSGczDo$ mass in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the $\PSGczDo$ mass to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the $\PSGczDo$ mass for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the $\PSGczDo$ mass versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading.
A summary of the impact of CMS searches on the probability density of the $\PSGczDo$ mass in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the $\PSGczDo$ mass to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the $\PSGczDo$ mass for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the $\PSGczDo$ mass versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading.
A summary of the impact of CMS searches on the probability density of the $\PSGczDo$ mass in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the $\PSGczDo$ mass to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the $\PSGczDo$ mass for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the $\PSGczDo$ mass versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading.
A summary of the impact of CMS searches on the probability density of the $\PSGczDo$ mass in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the $\PSGczDo$ mass to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the $\PSGczDo$ mass for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the $\PSGczDo$ mass versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading.
A summary of the impact of CMS searches on the probability density of the $\PSGczDo$ mass in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the $\PSGczDo$ mass to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the $\PSGczDo$ mass for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the $\PSGczDo$ mass versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading.
A summary of the impact of CMS searches on the probability density of the $\PSGczDo$ mass in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the $\PSGczDo$ mass to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the $\PSGczDo$ mass for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the $\PSGczDo$ mass versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading.
A summary of the impact of CMS searches on the probability density of the mass of the lightest non-degenerate (LND) chargino in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the LND $\widetilde{\chi}^\pm$ mass to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the LND $\widetilde{\chi}^\pm$ mass for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the LND $\widetilde{\chi}^\pm$ mass versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading.
A summary of the impact of CMS searches on the probability density of the mass of the lightest non-degenerate (LND) chargino in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the LND $\widetilde{\chi}^\pm$ mass to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the LND $\widetilde{\chi}^\pm$ mass for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the LND $\widetilde{\chi}^\pm$ mass versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading.
A summary of the impact of CMS searches on the probability density of the mass of the lightest non-degenerate (LND) chargino in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the LND $\widetilde{\chi}^\pm$ mass to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the LND $\widetilde{\chi}^\pm$ mass for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the LND $\widetilde{\chi}^\pm$ mass versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading.
A summary of the impact of CMS searches on the probability density of the mass of the lightest non-degenerate (LND) chargino in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the LND $\widetilde{\chi}^\pm$ mass to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the LND $\widetilde{\chi}^\pm$ mass for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the LND $\widetilde{\chi}^\pm$ mass versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading.
A summary of the impact of CMS searches on the probability density of the mass of the lightest non-degenerate (LND) chargino in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the LND $\widetilde{\chi}^\pm$ mass to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the LND $\widetilde{\chi}^\pm$ mass for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the LND $\widetilde{\chi}^\pm$ mass versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading.
A summary of the impact of CMS searches on the probability density of the mass of the lightest non-degenerate (LND) chargino in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the LND $\widetilde{\chi}^\pm$ mass to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the LND $\widetilde{\chi}^\pm$ mass for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the LND $\widetilde{\chi}^\pm$ mass versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading.
A summary of the impact of CMS searches on the probability density of the logarithm of the cross section for inclusive sparticle production in 8\TeV pp collisions, $\log_{10}(\sigma^{8\TeV}_\mathrm{SUSY})$, in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the $\log_{10}(\sigma^{8\TeV}_\mathrm{SUSY})$ to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the $\log_{10}(\sigma^{8\TeV}_\mathrm{SUSY})$ for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the $\log_{10}(\sigma^{8\TeV}_\mathrm{SUSY})$ versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading. In the bottom-left plot, the apparent enhancement of the left tail of the posterior density with respect to the prior is due to the suppression of the right tail and an overall renormalization.
A summary of the impact of CMS searches on the probability density of the logarithm of the cross section for inclusive sparticle production in 8\TeV pp collisions, $\log_{10}(\sigma^{8\TeV}_\mathrm{SUSY})$, in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the $\log_{10}(\sigma^{8\TeV}_\mathrm{SUSY})$ to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the $\log_{10}(\sigma^{8\TeV}_\mathrm{SUSY})$ for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the $\log_{10}(\sigma^{8\TeV}_\mathrm{SUSY})$ versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading. In the bottom-left plot, the apparent enhancement of the left tail of the posterior density with respect to the prior is due to the suppression of the right tail and an overall renormalization.
A summary of the impact of CMS searches on the probability density of the logarithm of the cross section for inclusive sparticle production in 8\TeV pp collisions, $\log_{10}(\sigma^{8\TeV}_\mathrm{SUSY})$, in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the $\log_{10}(\sigma^{8\TeV}_\mathrm{SUSY})$ to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the $\log_{10}(\sigma^{8\TeV}_\mathrm{SUSY})$ for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the $\log_{10}(\sigma^{8\TeV}_\mathrm{SUSY})$ versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading. In the bottom-left plot, the apparent enhancement of the left tail of the posterior density with respect to the prior is due to the suppression of the right tail and an overall renormalization.
A summary of the impact of CMS searches on the probability density of the logarithm of the cross section for inclusive sparticle production in 8\TeV pp collisions, $\log_{10}(\sigma^{8\TeV}_\mathrm{SUSY})$, in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the $\log_{10}(\sigma^{8\TeV}_\mathrm{SUSY})$ to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the $\log_{10}(\sigma^{8\TeV}_\mathrm{SUSY})$ for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the $\log_{10}(\sigma^{8\TeV}_\mathrm{SUSY})$ versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading. In the bottom-left plot, the apparent enhancement of the left tail of the posterior density with respect to the prior is due to the suppression of the right tail and an overall renormalization.
A summary of the impact of CMS searches on the probability density of the logarithm of the cross section for inclusive sparticle production in 8\TeV pp collisions, $\log_{10}(\sigma^{8\TeV}_\mathrm{SUSY})$, in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the $\log_{10}(\sigma^{8\TeV}_\mathrm{SUSY})$ to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the $\log_{10}(\sigma^{8\TeV}_\mathrm{SUSY})$ for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the $\log_{10}(\sigma^{8\TeV}_\mathrm{SUSY})$ versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading. In the bottom-left plot, the apparent enhancement of the left tail of the posterior density with respect to the prior is due to the suppression of the right tail and an overall renormalization.
A summary of the impact of CMS searches on the probability density of the logarithm of the cross section for inclusive sparticle production in 8\TeV pp collisions, $\log_{10}(\sigma^{8\TeV}_\mathrm{SUSY})$, in the pMSSM parameter space. The first-row and bottom-left plots compare the \preCMS prior distribution of the $\log_{10}(\sigma^{8\TeV}_\mathrm{SUSY})$ to posterior distributions after data from various CMS searches, where the bottom-left plot shows the combined effect of CMS searches and the Higgs boson results. The bottom-center plot shows survival probabilities as a function of the $\log_{10}(\sigma^{8\TeV}_\mathrm{SUSY})$ for various combinations of CMS data and data from Higgs boson measurements. The bottom-right plot shows the distribution of the $\log_{10}(\sigma^{8\TeV}_\mathrm{SUSY})$ versus the $Z$-significance calculated from the combination of all searches. See Fig. \ref{fig:mg} for a description of the shading. In the bottom-left plot, the apparent enhancement of the left tail of the posterior density with respect to the prior is due to the suppression of the right tail and an overall renormalization.
Comparison of prior and posterior distributions after several combinations of data from the CMS searches for the $\suR,\scR$ mass, $\sbone$ mass, $\seL,\smuL$ mass, $\stauOne$ mass, $\PSgxz{}_2$ mass, $\chipm$ mass, the higgsino mass parameter $\mu$, \tanb, and A mass.
Comparison of prior and posterior distributions after several combinations of data from the CMS searches for the $\suR,\scR$ mass, $\sbone$ mass, $\seL,\smuL$ mass, $\stauOne$ mass, $\PSgxz{}_2$ mass, $\chipm$ mass, the higgsino mass parameter $\mu$, \tanb, and A mass.
Comparison of prior and posterior distributions after several combinations of data from the CMS searches for the $\suR,\scR$ mass, $\sbone$ mass, $\seL,\smuL$ mass, $\stauOne$ mass, $\PSgxz{}_2$ mass, $\chipm$ mass, the higgsino mass parameter $\mu$, \tanb, and A mass.
Comparison of prior and posterior distributions after several combinations of data from the CMS searches for the $\suR,\scR$ mass, $\sbone$ mass, $\seL,\smuL$ mass, $\stauOne$ mass, $\PSgxz{}_2$ mass, $\chipm$ mass, the higgsino mass parameter $\mu$, \tanb, and A mass.
Comparison of prior and posterior distributions after several combinations of data from the CMS searches for the $\suR,\scR$ mass, $\sbone$ mass, $\seL,\smuL$ mass, $\stauOne$ mass, $\PSgxz{}_2$ mass, $\chipm$ mass, the higgsino mass parameter $\mu$, \tanb, and A mass.
Comparison of prior and posterior distributions after several combinations of data from the CMS searches for the $\suR,\scR$ mass, $\sbone$ mass, $\seL,\smuL$ mass, $\stauOne$ mass, $\PSgxz{}_2$ mass, $\chipm$ mass, the higgsino mass parameter $\mu$, \tanb, and A mass.
Comparison of prior and posterior distributions after several combinations of data from the CMS searches for the $\suR,\scR$ mass, $\sbone$ mass, $\seL,\smuL$ mass, $\stauOne$ mass, $\PSgxz{}_2$ mass, $\chipm$ mass, the higgsino mass parameter $\mu$, \tanb, and A mass.
Comparison of prior and posterior distributions after several combinations of data from the CMS searches for the $\suR,\scR$ mass, $\sbone$ mass, $\seL,\smuL$ mass, $\stauOne$ mass, $\PSgxz{}_2$ mass, $\chipm$ mass, the higgsino mass parameter $\mu$, \tanb, and A mass.
Comparison of prior and posterior distributions after several combinations of data from the CMS searches for the $\suR,\scR$ mass, $\sbone$ mass, $\seL,\smuL$ mass, $\stauOne$ mass, $\PSgxz{}_2$ mass, $\chipm$ mass, the higgsino mass parameter $\mu$, \tanb, and A mass.
Comparison of prior and posterior distributions after several combinations of data from the CMS searches for $\Omega_{\PSGcz_{1}}$, $\xi\sigma^{\text{SD}}(p\PSGczDo)$, and $\xi\sigma^{\text{SI}}(p\PSGczDo)$.
Comparison of prior and posterior distributions after several combinations of data from the CMS searches for $\Omega_{\PSGcz_{1}}$, $\xi\sigma^{\text{SD}}(p\PSGczDo)$, and $\xi\sigma^{\text{SI}}(p\PSGczDo)$.
Comparison of prior and posterior distributions after several combinations of data from the CMS searches for $\Omega_{\PSGcz_{1}}$, $\xi\sigma^{\text{SD}}(p\PSGczDo)$, and $\xi\sigma^{\text{SI}}(p\PSGczDo)$.
Marginalized \preCMS distributions (first column), compared with posterior distributions (second column) and survival probabilities (third column) after inclusion of the considered CMS searches, are shown for the $\PSGczDo$ mass versus gluino mass (first row), the LCSP mass (second row), the top squark mass (third row), and the logarithm of the cross section for inclusive sparticle production at 8\TeV (bottom row).
Marginalized \preCMS distributions (first column), compared with posterior distributions (second column) and survival probabilities (third column) after inclusion of the considered CMS searches, are shown for the $\PSGczDo$ mass versus gluino mass (first row), the LCSP mass (second row), the top squark mass (third row), and the logarithm of the cross section for inclusive sparticle production at 8\TeV (bottom row).
Marginalized \preCMS distributions (first column), compared with posterior distributions (second column) and survival probabilities (third column) after inclusion of the considered CMS searches, are shown for the $\PSGczDo$ mass versus gluino mass (first row), the LCSP mass (second row), the top squark mass (third row), and the logarithm of the cross section for inclusive sparticle production at 8\TeV (bottom row).
Marginalized \preCMS distributions (first column), compared with posterior distributions (second column) and survival probabilities (third column) after inclusion of the considered CMS searches, are shown for the $\PSGczDo$ mass versus gluino mass (first row), the LCSP mass (second row), the top squark mass (third row), and the logarithm of the cross section for inclusive sparticle production at 8\TeV (bottom row).
Marginalized \preCMS distributions (first column), compared with posterior distributions (second column) and survival probabilities (third column) after inclusion of the considered CMS searches, are shown for the $\PSGczDo$ mass versus gluino mass (first row), the LCSP mass (second row), the top squark mass (third row), and the logarithm of the cross section for inclusive sparticle production at 8\TeV (bottom row).
Marginalized \preCMS distributions (first column), compared with posterior distributions (second column) and survival probabilities (third column) after inclusion of the considered CMS searches, are shown for the $\PSGczDo$ mass versus gluino mass (first row), the LCSP mass (second row), the top squark mass (third row), and the logarithm of the cross section for inclusive sparticle production at 8\TeV (bottom row).
Marginalized \preCMS distributions (first column), compared with posterior distributions (second column) and survival probabilities (third column) after inclusion of the considered CMS searches, are shown for the $\PSGczDo$ mass versus gluino mass (first row), the LCSP mass (second row), the top squark mass (third row), and the logarithm of the cross section for inclusive sparticle production at 8\TeV (bottom row).
Marginalized \preCMS distributions (first column), compared with posterior distributions (second column) and survival probabilities (third column) after inclusion of the considered CMS searches, are shown for the $\PSGczDo$ mass versus gluino mass (first row), the LCSP mass (second row), the top squark mass (third row), and the logarithm of the cross section for inclusive sparticle production at 8\TeV (bottom row).
Marginalized \preCMS distributions (first column), compared with posterior distributions (second column) and survival probabilities (third column) after inclusion of the considered CMS searches, are shown for the $\PSGczDo$ mass versus gluino mass (first row), the LCSP mass (second row), the top squark mass (third row), and the logarithm of the cross section for inclusive sparticle production at 8\TeV (bottom row).
Marginalized \preCMS distributions (first column), compared with posterior distributions (second column) and survival probabilities (third column) after inclusion of the considered CMS searches, are shown for the $\PSGczDo$ mass versus gluino mass (first row), the LCSP mass (second row), the top squark mass (third row), and the logarithm of the cross section for inclusive sparticle production at 8\TeV (bottom row).
Marginalized \preCMS distributions (first column), compared with posterior distributions (second column) and survival probabilities (third column) after inclusion of the considered CMS searches, are shown for the $\PSGczDo$ mass versus gluino mass (first row), the LCSP mass (second row), the top squark mass (third row), and the logarithm of the cross section for inclusive sparticle production at 8\TeV (bottom row).
Marginalized \preCMS distributions (first column), compared with posterior distributions (second column) and survival probabilities (third column) after inclusion of the considered CMS searches, are shown for the $\PSGczDo$ mass versus gluino mass (first row), the LCSP mass (second row), the top squark mass (third row), and the logarithm of the cross section for inclusive sparticle production at 8\TeV (bottom row).
The twelve most common principal processes in the pMSSM, listed in order of their frequency before the constraints of the CMS searches. Both on-shell and off-shell states are included. Indices of particle charge, flavor, and chirality are ignored in the construction, with the exception of the flavor of the third-generation squarks and quarks. Asterisks in the labels indicate where process names involving long decay chains have been abbreviated.
The twelve most common principal processes in the pMSSM, listed in order of their frequency before the constraints of the CMS searches. Both on-shell and off-shell states are included. Indices of particle charge, flavor, and chirality are ignored in the construction, with the exception of the flavor of the third-generation squarks and quarks. Asterisks in the labels indicate where process names involving long decay chains have been abbreviated.
The twelve most common principal processes in the pMSSM, listed in order of their frequency before the constraints of the CMS searches. Both on-shell and off-shell states are included. Indices of particle charge, flavor, and chirality are ignored in the construction, with the exception of the flavor of the third-generation squarks and quarks. Asterisks in the labels indicate where process names involving long decay chains have been abbreviated.
The twelve most common principal processes in the pMSSM, listed in order of their frequency before the constraints of the CMS searches. Both on-shell and off-shell states are included. Indices of particle charge, flavor, and chirality are ignored in the construction, with the exception of the flavor of the third-generation squarks and quarks. Asterisks in the labels indicate where process names involving long decay chains have been abbreviated.
The twelve most common principal processes in the pMSSM, listed in order of their frequency before the constraints of the CMS searches. Both on-shell and off-shell states are included. Indices of particle charge, flavor, and chirality are ignored in the construction, with the exception of the flavor of the third-generation squarks and quarks. Asterisks in the labels indicate where process names involving long decay chains have been abbreviated.
The twelve most common principal processes in the pMSSM, listed in order of their frequency before the constraints of the CMS searches. Both on-shell and off-shell states are included. Indices of particle charge, flavor, and chirality are ignored in the construction, with the exception of the flavor of the third-generation squarks and quarks. Asterisks in the labels indicate where process names involving long decay chains have been abbreviated.
The twelve most common principal processes in the pMSSM, listed in order of their frequency before the constraints of the CMS searches. Both on-shell and off-shell states are included. Indices of particle charge, flavor, and chirality are ignored in the construction, with the exception of the flavor of the third-generation squarks and quarks. Asterisks in the labels indicate where process names involving long decay chains have been abbreviated.
The twelve most common principal processes in the pMSSM, listed in order of their frequency before the constraints of the CMS searches. Both on-shell and off-shell states are included. Indices of particle charge, flavor, and chirality are ignored in the construction, with the exception of the flavor of the third-generation squarks and quarks. Asterisks in the labels indicate where process names involving long decay chains have been abbreviated.
The twelve most common principal processes in the pMSSM, listed in order of their frequency before the constraints of the CMS searches. Both on-shell and off-shell states are included. Indices of particle charge, flavor, and chirality are ignored in the construction, with the exception of the flavor of the third-generation squarks and quarks. Asterisks in the labels indicate where process names involving long decay chains have been abbreviated.
The twelve most common principal processes in the pMSSM, listed in order of their frequency before the constraints of the CMS searches. Both on-shell and off-shell states are included. Indices of particle charge, flavor, and chirality are ignored in the construction, with the exception of the flavor of the third-generation squarks and quarks. Asterisks in the labels indicate where process names involving long decay chains have been abbreviated.
The twelve most common principal processes in the pMSSM, listed in order of their frequency before the constraints of the CMS searches. Both on-shell and off-shell states are included. Indices of particle charge, flavor, and chirality are ignored in the construction, with the exception of the flavor of the third-generation squarks and quarks. Asterisks in the labels indicate where process names involving long decay chains have been abbreviated.
The twelve most common principal processes in the pMSSM, listed in order of their frequency before the constraints of the CMS searches. Both on-shell and off-shell states are included. Indices of particle charge, flavor, and chirality are ignored in the construction, with the exception of the flavor of the third-generation squarks and quarks. Asterisks in the labels indicate where process names involving long decay chains have been abbreviated.
The left plot shows the fraction of excluded (dark) and nonexcluded (light) points out of all considered points, by principal process. Color is assigned to the processes that are most common after the constraints of the CMS searches, which are selected for further study. The dominance of principal processes, as defined in Eq.~\ref{eq:dominance}, is given in the right plot, where the bands show the RMS range of the dominance.
The left plot shows the fraction of excluded (dark) and nonexcluded (light) points out of all considered points, by principal process. Color is assigned to the processes that are most common after the constraints of the CMS searches, which are selected for further study. The dominance of principal processes, as defined in Eq.~\ref{eq:dominance}, is given in the right plot, where the bands show the RMS range of the dominance.
A parallel coordinates plot showing several hundred selected nonexcluded model points for the six most common principal processes, with seven key properties. From the left, the selected properties are: the principal process, the 8\TeV signal production cross section (in $\log_{10}$ scale), the average value of the \MET{}, the average number of $\cPqb$-jets, leptons, and jets, and finally, the average \pt momentum of the leading jet. Color is assigned based on the principal process. Orange codes for process 1, blue for process 2, green for 3, red for 4, violet for 7, and cyan for 10. The range of each axis is given at its lower and upper end. Lines arching toward higher vertical positions typically indicate more ``discoverable'' scenarios.
A parallel coordinates plot of the nonexcluded pMSSM points with the axes set as the principal process, the average \MET{} (in \GeV), and the fiducial cross section (in linear scale) for various thresholds on the \MET{}. All nonexcluded points corresponding to processes 1, 2, 3, 4, 7, and 10 that have a fiducial cross section for $\MET>100$\GeV greater than 100\unit{fb} are shown. Color is assigned to values of the principal process in the same manner as in Fig.~\ref{fig:parcor}.
A parallel coordinates plot of the nonexcluded pMSSM points with the axes set as the principal process, the average \HT{} (in \GeV), and the fiducial cross section (in linear scale) for various thresholds on the \HT{}. All nonexcluded points corresponding to processes 1, 2, 3, 4, 7, and 10 that have a fiducial cross section for $\HT > 300$\GeV greater than 300\unit{fb} are shown. Color is assigned to values of the principal process in the same manner as in Fig.~\ref{fig:parcor}.
A parallel coordinates plot of the nonexcluded pMSSM points with the axes set as the principal process and the fiducial cross section (in linear scale) for various thresholds on the sub-leading lepton \pt (in\GeV). All nonexcluded points corresponding to processes 1, 2, 3, 4, 7, and 10 that have a fiducial cross section for $\pt^{\text{lep2}}> 5$\GeV greater than 30\unit{fb} are shown. Color is assigned to values of the principal process in the same manner as in Fig.~\ref{fig:parcor}.