Search for anomalous production of events with three or more leptons using 19.5fb$^{-1}$ of $\sqrt{s}$ = 8 TeV LHC data (SUS-13-002)

Further information

This analysis is documented in arXiv:1404.5801 and CMS-PAS-SUS-13-002. The Table and Figure numbers in the Material in paper section correspond to the table and figure numbers in the paper.

Paper Abstract

A search for physics beyond the standard model in events with at least three leptons is presented. The data sample, corresponding to an integrated luminosity of 19.5fb$^{-1}$ of proton-proton collisions with center-of-mass energy $\sqrt{s} = 8$ TeV, was collected by the CMS experiment at the LHC during 2012. The data are divided into exclusive categories based on the number of leptons and their flavor, the presence or absence of an opposite-sign, same-flavor lepton pair (OSSF), the invariant mass of the OSSF pair, the presence or absence of a tagged bottom-quark jet, the number of identified hadronically decaying $\tau$ leptons, and the magnitude of the missing transverse energy and of the scalar sum of jet transverse momenta. The numbers of observed events are found to be consistent with the expected numbers from standard model processes, and limits are placed on new-physics scenarios that yield multilepton final states. In particular, scenarios that predict Higgs boson production in the context of supersymmetric decay chains are examined. We also place a $95\%$ confidence level upper limit of $1.3\%$ on the branching fraction for the decay of a top quark to a charm quark and a Higgs boson ($\textrm{t} \rightarrow \text{cH}$), which translates to a bound on the left- and right-handed top-charm flavor-violating Higgs Yukawa couplings, $\lambda_{\textrm{tc}}^{\textrm{H}}$ and $\lambda_{\textrm{ct}}^{\textrm{H}}$, respectively, of $\sqrt{|\lambda_{\textrm{tc}}^{\textrm{H}}|^2 + |\lambda_{\textrm{ct}}^{\textrm{H}}|^2} < 0.21$.

Approved tables and plots (click on plot to get larger version)

Material in paper

Figure Caption
WZControl_DiLepton_MET.png Figure 1: Distributions for $E_{\mathrm{T}}^{\text{miss}}$ in the $WZ$ control region.
TTbarControl_DiLepton_MET.png Figure 2a: Distributions for $E_{\mathrm{T}}^{\text{miss}}$ in the opposite sign $e\mu$ dilepton $t\bar{t}$ control region.
TTbarControl_DiLepton_HT.png Figure 2b: Distribution for $H_{\textrm{T}}$ in the opposite sign $e\mu$ dilepton $t\bar{t}$ control region.
StopHiggs.png Figure 3a: Diagram for decays in the natural Higgsino NLSP scenario, where the particles in parentheses are soft. A fixed mass difference of 5GeV between higgsino masses is chosen for this model.
GMSB_mass_spectra_nh.png Figure 3b: Mass spectra for the GMSB scenarios.
curve_NaturalHiggsinoNLSP.png Figure 4a: 95$\%$ C.L. limits for the natural Higgsino NLSP scenario with $\textrm{Br}(\chi_1^0 \rightarrow h \widetilde{G})=\textrm{Br}(\chi_1^0 \rightarrow Z \widetilde{G})=0.5$ for strong plus electroweak production. Efficiencies can be found in NaturalHiggsinoNLSP_5050_AccEff.txt.
curve_NaturalHiggsinoNLSP_hh.png Figure 4b: 95$\%$ C.L. limits for the natural Higgsino NLSP scenario with $\textrm{Br}(\chi_1^0 \rightarrow h \widetilde{G})=1.0$ for strong plus electroweak production. Efficiencies can be found in NaturalHiggsinoNLSP_hh_AccEff.txt.
curve_NaturalHiggsinoNLSP_zz.png Figure 4c: 95$\%$ C.L. limits for the natural Higgsino NLSP scenario with $\textrm{Br}(\chi_1^0 \rightarrow Z \widetilde{G})=1.0$ for strong plus electroweak production. Efficiencies can be found in NaturalHiggsinoNLSP_zz_AccEff.txt.
curve_NaturalHiggsinoNLSP_FixedHiggsino150.png Figure 5a: 95$\%$ C.L. limits for the natural Higgsino scenario with strong plus electroweak production for $\textrm{Br}(\chi_1^0 \rightarrow h \widetilde{G})=\textrm{Br}(\chi_1^0 \rightarrow Z \widetilde{G})=0.5$. The chargino-Higgsino mass is fixed at 150 GeV. The region to the bottom left of the contours is excluded. Efficiencies can be found in NaturalHiggsinoNLSP_5050_chargino150_AccEff.txt.
curve_NaturalHiggsinoNLSP_FixedHiggsino350.png Figure 5b: 95$\%$ C.L. limits for the natural Higgsino scenario with strong plus electroweak production for $\textrm{Br}(\chi_1^0 \rightarrow h \widetilde{G})=\textrm{Br}(\chi_1^0 \rightarrow Z \widetilde{G})=0.5$. The chargino-Higgsino mass is fixed at 350 GeV. The region to the bottom left of the contours is excluded. The vertical line illustrates the chargino-Higgsino mass; the space to the left of it is unphysical. Efficiencies can be found in NaturalHiggsinoNLSP_5050_chargino350_AccEff.txt.
curve_NaturalHiggsinoNLSP_hh_FixedHiggsino150.png Figure 5c: 95$\%$ C.L. limits for the natural Higgsino scenario with strong plus electroweak production for $\textrm{Br}(\chi_1^0 \rightarrow h \widetilde{G})=1.0$. The chargino-Higgsino mass is fixed at 150 GeV. The region to the bottom left of the contours is excluded. Efficiencies can be found in NaturalHiggsinoNLSP_hh_chargino150_AccEff.txt.
curve_NaturalHiggsinoNLSP_hh_FixedHiggsino350.png Figure 5d: 95$\%$ C.L. limits for the natural Higgsino scenario with strong plus electroweak production for $\textrm{Br}(\chi_1^0 \rightarrow h \widetilde{G})=1.0$. The chargino-Higgsino mass is fixed at 350 GeV. The region to the bottom left of the contours is excluded. The vertical line on the right illustrates the chargino-Higgsino mass; the space to the left of it is unphysical. Efficiencies can be found in NaturalHiggsinoNLSP_hh_chargino350_AccEff.txt.
curve_NaturalHiggsinoNLSP_zz_FixedHiggsino150.png Figure 5e: 95$\%$ C.L. limits for the natural Higgsino scenario with strong plus electroweak production for $\textrm{Br}(\chi_1^0 \rightarrow Z \widetilde{G})=1.0$. The chargino-Higgsino mass is fixed at 150 GeV. The region to the bottom left of the contours is excluded. Efficiencies can be found in NaturalHiggsinoNLSP_zz_chargino150_AccEff.txt.
curve_NaturalHiggsinoNLSP_zz_FixedHiggsino350.png Figure 5f: 95$\%$ C.L. limits for the natural Higgsino scenario with strong plus electroweak production for $\textrm{Br}(\chi_1^0 \rightarrow Z \widetilde{G})=1.0$. The chargino-Higgsino mass is fixed at 350 GeV. The region to the bottom left of the contours is excluded. The vertical line illustrates the chargino-Higgsino mass; the space to the left of it is unphysical. Efficiencies can be found in NaturalHiggsinoNLSP_zz_chargino350_AccEff.txt.
curve_NaturalHiggsinoNLSP_FloatingBR_FixedHiggsino150.png Figure 6a: 95$\%$ C.L. limits on $\textrm{Br}(\chi_1^0 \rightarrow h \widetilde{G})$ for the natural Higgsino NLSP scenario with fixed chargino-Higgsino mass of 150 GeV assuming $\textrm{Br}(\chi_1^0 \rightarrow h \widetilde{G})+\textrm{Br}(\chi_1^0 \rightarrow Z \widetilde{G})=1.0$ and strong plus weak production. The region to the bottom left of the contours is excluded. Efficiencies can be found in NaturalHiggsinoNLSP_BR_chargino150_AccEff.txt.
curve_NaturalHiggsinoNLSP_FloatingBR_FixedHiggsino250.png Figure 6b: 95$\%$ C.L. limits on $\textrm{Br}(\chi_1^0 \rightarrow h \widetilde{G})$ for the natural Higgsino NLSP scenario with fixed chargino-Higgsino mass of 250 GeV assuming $\textrm{Br}(\chi_1^0 \rightarrow h \widetilde{G})+\textrm{Br}(\chi_1^0 \rightarrow Z \widetilde{G})=1.0$ and strong plus weak production. The region to the bottom left of the contours is excluded. The vertical line illustrates the chargino-Higgsino mass; the space to the left of it is unphysical. Efficiencies can be found in NaturalHiggsinoNLSP_BR_chargino250_AccEff.txt.
curve_NaturalHiggsinoNLSP_FloatingBR_FixedHiggsino350.png Figure 6c: 95$\%$ C.L. limits on $\textrm{Br}(\chi_1^0 \rightarrow h \widetilde{G})$ for the natural Higgsino NLSP scenario with fixed chargino-Higgsino mass of 350 GeV assuming $\textrm{Br}(\chi_1^0 \rightarrow h \widetilde{G})+\textrm{Br}(\chi_1^0 \rightarrow Z \widetilde{G})=1.0$ and strong plus weak production. The region to the bottom left of the contours is excluded. The vertical line illustrates the chargino-Higgsino mass; the space to the left of it is unphysical. Efficiencies can be found in NaturalHiggsinoNLSP_BR_chargino350_AccEff.txt.
slepton_coNLSP.png Figure 7a: One of the diagrams for decays in the slepton co-NLSP scenario.
GMSB_mass_spectra_slco.png Figure 7b: Mass spectra for the SMS scenarios.
curve_coNLSP.png Figure 8a: 95$\%$ C.L. limits for the slepton co-NLSP model in the gluino-chargino (wino-like chargino) mass plane are shown. Masses to the bottom left of the curve are excluded. Efficiencies can be found in coNLSP_AccEff.txt.
curve_stauNLSP_3sigma.png Figure 8b: 95$\%$ C.L. limits for the stau-NLSP and stau-NNLSP scenario in the degenerate smuon- and selectron- stau mass plane are shown. Masses to the left of the curve are excluded. The figure shows 1$\sigma$, 2$\sigma$, and 3$\sigma$ uncertainty bands. The discrepancy between expected and observed 95$\%$ CL limits below the diagonal is driven by the 3(e/$\mu$)+$\tau_{h}$ off Z channels with no b-tags and $H_{T} < 200$ GeV. The three relevant entries in Table 2 refer to an observed (expected) yield of 15 $(7.5 \pm 2)$, 4 $(2.1 \pm 0.5)$, 3 $(0.6 \pm 0.24)$ events for the three different $E_{\mathrm{T}}^{\text{miss}}$ bins. The probability for an expected yield of $10 \pm 2.4$ to fluctuate to 22 or more is about 1$\%$. As this analysis includes 64 sets of channels like this, we estimate our chances to see one such fluctuation at about 50$\%$. Alternatively, taking correlated systematics into account, the joint probability to observe three fluctuations like this in one of the 64 channels is about 5$\%$. Efficiencies can be found in stauNLSP_AccEff.txt.
stauNLSP.png Figure 9a: Diagram for decays in the stau-NLSP scenario.
GMSB_mass_spectra_stau.png Figure 9b: Mass spectra for the SMS scenarios.
T1tttt.png Figure 10a: Diagram for decays in the T1tttt scenario.
SMS_mass_spectra_T1.png Figure 10b: Mass spectra for the SMS scenarios.
curve_T1tttt.png Figure 11a: 95$\%$ C.L. limits for the T1tttt model in the gluino-neutralino mass plane are shown. Masses to the left of the curve which are below the diagonal are excluded. Efficiencies can be found in T1tttt_AccEff.txt. The contours are stored in contours_T1tttt.root.
curve_T6ttWW.png Figure 11b: 95$\%$ C.L. limits for the T6ttWW model in the sbottom-chargino mass plane are shown. Masses to the left of the curve which are below the diagonal are excluded. Efficiencies can be found in T6ttWW_AccEff.txt. The contours are stored in contours_T6ttWW.root.
T6ttWW.png Figure 12a: Diagram for decays in the T6ttWW scenario.
SMS_mass_spectra_T6.png Figure 12b: Mass spectra for the SMS scenarios.
SUS-13-002_Table1.png Table 1: The systematic uncertainties associated with this analysis. The $E_{\mathrm{T}}^{\text{miss}}$ resolution systematic is given for $WZ$ background on Z for different cuts on $E_{\mathrm{T}}^{\text{miss}}$ and for different cuts on $M_{T}$ given a cut of $E_{\mathrm{T}}^{\text{miss}} > 50$ GeV.
SUS-13-002_Table2.png Table 2: Results from 19.5fb$^{-1}$ of 2012 data with 4 leptons. The labels going down the side refer to whether or not there are OSSF pairs, whether or not $Z\to\ell^+\ell^-$ was excluded (below-Z means $m_{ll} < 75$ GeV, above-Z means $m_{ll} > 105$ GeV, on-Z means $m_{ll}$ between 75 and 105 GeV), and the $H_{T}$ and $E_{\mathrm{T}}^{\text{miss}}$ requirements. Labels along the top of the table give the number of $\tau_{h}$ candidates, 0 or 1 and the number of b-jets which is 0 or $\geq$1. All channels are exclusive. The channels shown in the table are for displaying purposes only. Finer $E_{\mathrm{T}}^{\text{miss}}$ channels are used for the fitting procedure and for setting the limits.
SUS-13-002_Table3.png Table 3: Results from 19.5fb$^{-1}$ of 2012 data with 3 leptons. The labels going down the side refer to whether or not there are OSSF pairs, whether or not $Z\to\ell^+\ell^-$ was excluded (below-Z means $m_{ll} < 75$ GeV, above-Z means $m_{ll} > 105$ GeV, on-Z means $m_{ll}$ between 75 and 105 GeV), and the $H_{T}$ and $E_{\mathrm{T}}^{\text{miss}}$ requirements. Labels along the top of the table give the number of $\tau_{h}$ candidates, 0 or 1 and the number of b-jets which is 0 or $\geq$1. All channels are exclusive. The channels shown in the table are for displaying purposes only. Finer $E_{\mathrm{T}}^{\text{miss}}$ channels are used for the fitting procedure and for setting the limits. Channels indicated with a (*) are used as control regions and are excluded from the limit calculations.
SUS-13-002_Table4.png Table 4: The 10 most sensitive channels for $t \rightarrow ch$, along with the number of observed, background, and expected signal events (assuming BR($t \rightarrow ch$ = 1 %), ordered by sensitivity. All signal regions shown have exactly three selected leptons. The results are binned in $E_{T}^{miss}$, $H_{T}$, the presence of a b-tag, and - if applicable - the OSSF pair invariant mass with respect to the Z window.
SUS-13-002_Table5.png Table 5: Limits on BR($ t \rightarrow ch$) from individual Higgs decay modes.
tcH_Yukawa.png Limit on the top-charm flavor violating Yukawa coupling

Additional Material

Figure Caption
curve_NaturalHiggsinoNLSP_overlay_observed.png Observed 95$\%$ C.L. limits for the natural Higgsino NLSP scenario with $\textrm{Br}(\chi_1^0 \rightarrow h \widetilde{G})=\textrm{Br}(\chi_1^0 \rightarrow Z \widetilde{G})=0.5$ for strong plus electroweak production. The electronic form is Limit_NaturalHiggsinoNLSP_5050.root.
curve_NaturalHiggsinoNLSP_hh_overlay_observed.png Observed 95$\%$ C.L. limits for the natural Higgsino NLSP scenario with $\textrm{Br}(\chi_1^0 \rightarrow h \widetilde{G})=1.0$ for strong plus electroweak production. The electronic form is Limit_NaturalHiggsinoNLSP_hh.root.
curve_NaturalHiggsinoNLSP_zz_overlay_observed.png Observed 95$\%$ C.L. limits for the natural Higgsino NLSP scenario with $\textrm{Br}(\chi_1^0 \rightarrow Z \widetilde{G})=1.0$ for strong plus electroweak production. The electronic form is Limit_NaturalHiggsinoNLSP_zz.root.
curve_NaturalHiggsinoNLSP_FloatingBR_FixedHiggsino150_overlay_observed.png Observed 95$\%$ C.L. limits on $\textrm{Br}(\chi_1^0 \rightarrow h \widetilde{G})$ for the natural Higgsino NLSP scenario with fixed chargino-Higgsino mass of 150 GeV assuming $\textrm{Br}(\chi_1^0 \rightarrow h \widetilde{G})+\textrm{Br}(\chi_1^0 \rightarrow Z \widetilde{G})=1.0$ and strong plus weak production. The electronic form is Limit_NaturalHiggsinoNLSP_BR_chargino150.root.
curve_NaturalHiggsinoNLSP_FloatingBR_FixedHiggsino250_overlay_observed.png Observed 95$\%$ C.L. limits on $\textrm{Br}(\chi_1^0 \rightarrow h \widetilde{G})$ for the natural Higgsino NLSP scenario with fixed chargino-Higgsino mass of 250 GeV assuming $\textrm{Br}(\chi_1^0 \rightarrow h \widetilde{G})+\textrm{Br}(\chi_1^0 \rightarrow Z \widetilde{G})=1.0$ and strong plus weak production. The vertical line illustrates the chargino-Higgsino mass; the space to the left of it is unphysical. The electronic form is Limit_NaturalHiggsinoNLSP_BR_chargino250.root.
curve_NaturalHiggsinoNLSP_FloatingBR_FixedHiggsino350_overlay_observed.png Observed 95$\%$ C.L. limits on $\textrm{Br}(\chi_1^0 \rightarrow h \widetilde{G})$ for the natural Higgsino NLSP scenario with fixed chargino-Higgsino mass of 350 GeV assuming $\textrm{Br}(\chi_1^0 \rightarrow h \widetilde{G})+\textrm{Br}(\chi_1^0 \rightarrow Z \widetilde{G})=1.0$ and strong plus weak production. The vertical line illustrates the chargino-Higgsino mass; the space to the left of it is unphysical. The electronic form is Limit_NaturalHiggsinoNLSP_BR_chargino350.root.
curve_coNLSP_overlay_observed.png Observed 95$\%$ C.L. limits for the slepton co-NLSP model in the gluino-chargino (wino-like chargino) mass plane are shown. The electronic form is Limit_coNLSP.root.
curve_stauNLSP_3sigma_overlay_observed.png Observed 95$\%$ C.L. limits for the stau-NLSP and stau-NNLSP scenario in the degenerate smuon- and selectron- stau mass plane are shown. The electronic form is Limit_stauNLSP.root.
curve_T1tttt_overlay_observed.png Observed 95$\%$ C.L. limits for the T1tttt model in the gluino-neutralino mass plane are shown. The electronic form is Limit_T1tttt.root.
curve_T6ttWW_overlay_observed.png Observed 95$\%$ C.L. limits for the T6ttWW model in the sbottom-chargino mass plane are shown. The electronic form is Limit_T6ttWW.root.
curve_coNLSP_overlay_eff.png Efficiency*acceptance for the slepton co-NLSP model in the gluino-chargino (wino-like chargino) mass plane are shown.
curve_stauNLSP_3sigma_overlay_eff.png Efficiency*acceptance for the stau-NLSP and stau-NNLSP scenario in the degenerate smuon- and selectron- stau mass plane are shown.
curve_T6ttWW_overlay_eff.png Efficiency*acceptance for the T6ttWW model in the sbottom-chargino mass plane are shown.
L3DY0Tau0b0HTV_METHT.png Figure 80a: Background breakdown vs MET for 3-leptons + OSSF0 + Tau0 + no b-jets + HT > 200 GeV
L3DY0Tau0b1HTV_METHT.png Figure 80b: Background breakdown vs MET for 3-leptons + OSSF0 + Tau0 + at least 1 b-jet + HT > 200 GeV
L3DY0Tau0b0_METHT.png Figure 81a: Background breakdown vs MET for 3-leptons + OSSF0 + Tau0 + no b-jets + HT < 200 GeV
L3DY0Tau0b1_METHT.png Figure 81b: Background breakdown vs MET for 3-leptons + OSSF0 + Tau0 + at least 1 b-jet + HT < 200 GeV
L3DY0Tau1b0HTV_METHT.png Figure 82a: Background breakdown vs MET for 3-leptons + OSSF0 + Tau1 + no b-jets + HT > 200 GeV
L3DY0Tau1b1HTV_METHT.png Figure 82b: Background breakdown vs MET for 3-leptons + OSSF0 + Tau1 + at least 1 b-jet + HT > 200 GeV
L3DY0Tau1b0_METHT.png Figure 83a: Background breakdown vs MET for 3-leptons + OSSF0 + Tau1 + no b-jets + HT < 200 GeV
L3DY0Tau1b1_METHT.png Figure 83b: Background breakdown vs MET for 3-leptons + OSSF0 + Tau1 + at least 1 b-jet + HT < 200 GeV
L3DY1Tau0b0HTV_METHT.png Figure 84a: Background breakdown vs MET for 3-leptons + OSSF1 + on-Z + Tau0 + no b-jets + HT > 200 GeV
L3DY1Tau0b1HTV_METHT.png Figure 84b: Background breakdown vs MET for 3-leptons + OSSF1 + on-Z + Tau0 + at least 1 b-jet + HT > 200 GeV
L3DY1Tau0b0_METHT.png Figure 85a: Background breakdown vs MET for 3-leptons + OSSF1 + on-Z + Tau0 + no b-jets + HT < 200 GeV
L3DY1Tau0b1_METHT.png Figure 85b: Background breakdown vs MET for 3-leptons + OSSF1 + on-Z + Tau0 + at least 1 b-jet + HT < 200 GeV
L3DY1Tau1b0HTV_METHT.png Figure 86a: Background breakdown vs MET for 3-leptons + OSSF1 + on-Z + Tau1 + no b-jets + HT > 200 GeV
L3DY1Tau1b1HTV_METHT.png Figure 86b: Background breakdown vs MET for 3-leptons + OSSF1 + on-Z + Tau1 + at least 1 b-jet + HT > 200 GeV
L3DY1Tau1b0_METHT.png Figure 87a: Background breakdown vs MET for 3-leptons + OSSF1 + on-Z + Tau1 + no b-jets + HT < 200 GeV
L3DY1Tau1b1_METHT.png Figure 87b: Background breakdown vs MET for 3-leptons + OSSF1 + on-Z + Tau1 + at least 1 b-jet + HT < 200 GeV
L3DY1ZVZHTau0b0HTV_METHT.png Figure 88a: Background breakdown vs MET for 3-leptons + OSSF1 + above-Z + Tau0 + no b-jets + HT > 200 GeV
L3DY1ZVZHTau0b1HTV_METHT.png Figure 88b: Background breakdown vs MET for 3-leptons + OSSF1 + above-Z + Tau0 + at least 1 b-jet + HT > 200 GeV
L3DY1ZVZHTau0b0_METHT.png Figure 89a: Background breakdown vs MET for 3-leptons + OSSF1 + above-Z + Tau0 + no b-jets + HT < 200 GeV
L3DY1ZVZHTau0b1_METHT.png Figure 89b: Background breakdown vs MET for 3-leptons + OSSF1 + above-Z + Tau0 + at least 1 b-jet + HT < 200 GeV
L3DY1ZVZHTau1b0HTV_METHT.png Figure 90a: Background breakdown vs MET for 3-leptons + OSSF1 + above-Z + Tau1 + no b-jets + HT > 200 GeV
L3DY1ZVZHTau1b1HTV_METHT.png Figure 90b: Background breakdown vs MET for 3-leptons + OSSF1 + above-Z + Tau1 + at least 1 b-jet + HT > 200 GeV
L3DY1ZVZHTau1b0_METHT.png Figure 91a: Background breakdown vs MET for 3-leptons + OSSF1 + above-Z + Tau1 + no b-jets + HT < 200 GeV
L3DY1ZVZHTau1b1_METHT.png Figure 91b: Background breakdown vs MET for 3-leptons + OSSF1 + above-Z + Tau1 + at least 1 b-jet + HT < 200 GeV
L3DY1ZVZLTau0b0HTV_METHT.png Figure 92a: Background breakdown vs MET for 3-leptons + OSSF1 + below-Z + Tau0 + no b-jets + HT > 200 GeV
L3DY1ZVZLTau0b1HTV_METHT.png Figure 92b: Background breakdown vs MET for 3-leptons + OSSF1 + below-Z + Tau0 + at least 1 b-jet + HT > 200 GeV
L3DY1ZVZLTau0b0_METHT.png Figure 93a: Background breakdown vs MET for 3-leptons + OSSF1 + below-Z + Tau0 + no b-jets + HT < 200 GeV
L3DY1ZVZLTau0b1_METHT.png Figure 93b: Background breakdown vs MET for 3-leptons + OSSF1 + below-Z + Tau0 + at least 1 b-jet + HT < 200 GeV
L3DY1ZVZLTau1b0HTV_METHT.png Figure 94a: Background breakdown vs MET for 3-leptons + OSSF1 + below-Z + Tau1 + no b-jets + HT > 200 GeV
L3DY1ZVZLTau1b1HTV_METHT.png Figure 94b: Background breakdown vs MET for 3-leptons + OSSF1 + below-Z + Tau1 + at least 1 b-jet + HT > 200 GeV
L3DY1ZVZLTau1b0_METHT.png Figure 95a: Background breakdown vs MET for 3-leptons + OSSF1 + below-Z + Tau1 + no b-jets + HT < 200 GeV
L3DY1ZVZLTau1b1_METHT.png Figure 95b: Background breakdown vs MET for 3-leptons + OSSF1 + below-Z + Tau1 + at least 1 b-jet + HT < 200 GeV
L4DY0Tau1b0_METHT.png Figure 96a: Background breakdown vs MET for 4-leptons + OSSF0 + Tau1 + no b-jets + HT < 200 GeV
L4DY0Tau1b1_METHT.png Figure 96b: Background breakdown vs MET for 4-leptons + OSSF0 + Tau1 + at least 1 b-jet + HT < 200 GeV
L4DY1Tau0b0HTV_METHT.png Figure 97a: Background breakdown vs MET for 4-leptons + OSSF1 + on-Z + Tau0 + no b-jets + HT > 200 GeV
L4DY1Tau0b1HTV_METHT.png Figure 97b: Background breakdown vs MET for 4-leptons + OSSF1 + on-Z + Tau0 + at least 1 b-jet + HT > 200 GeV
L4DY1Tau0b0_METHT.png Figure 98a: Background breakdown vs MET for 4-leptons + OSSF1 + on-Z + Tau0 + no b-jets + HT < 200 GeV
L4DY1Tau0b1_METHT.png Figure 98b: Background breakdown vs MET for 4-leptons + OSSF1 + on-Z + Tau0 + at least 1 b-jet + HT < 200 GeV
L4DY1Tau1b0HTV_METHT.png Figure 99a: Background breakdown vs MET for 4-leptons + OSSF1 + on-Z + Tau1 + no b-jets + HT > 200 GeV
L4DY1Tau1b1HTV_METHT.png Figure 99b: Background breakdown vs MET for 4-leptons + OSSF1 + on-Z + Tau1 + at least 1 b-jet + HT > 200 GeV
L4DY1Tau1b0_METHT.png Figure 100a: Background breakdown vs MET for 4-leptons + OSSF1 + on-Z + Tau1 + no b-jets + HT < 200 GeV
L4DY1Tau1b1_METHT.png Figure 100a: Background breakdown vs MET for 4-leptons + OSSF1 + on-Z + Tau1 + at least 1 b-jet + HT < 200 GeV
L4DY1ZVTau0b0HTV_METHT.png Figure 101a: Background breakdown vs MET for 4-leptons + OSSF1 + off-Z + Tau0 + no b-jets + HT > 200 GeV
L4DY1ZVTau0b1HTV_METHT.png Figure 101b: Background breakdown vs MET for 4-leptons + OSSF1 + off-Z + Tau0 + at least 1 b-jet + HT > 200 GeV
L4DY1ZVTau0b0_METHT.png Figure 102a: Background breakdown vs MET for 4-leptons + OSSF1 + off-Z + Tau0 + no b-jets + HT < 200 GeV
L4DY1ZVTau0b1_METHT.png Figure 102b: Background breakdown vs MET for 4-leptons + OSSF1 + off-Z + Tau0 + at least 1 b-jet + HT < 200 GeV
L4DY1ZVTau1b0HTV_METHT.png Figure 103a: Background breakdown vs MET for 4-leptons + OSSF1 + off-Z + Tau1 + no b-jets + HT > 200 GeV
L4DY1ZVTau1b1HTV_METHT.png Figure 103b: Background breakdown vs MET for 4-leptons + OSSF1 + off-Z + Tau1 + at least 1 b-jet + HT > 200 GeV
L4DY1ZVTau1b0_METHT.png Figure 104a: Background breakdown vs MET for 4-leptons + OSSF1 + off-Z + Tau1 + no b-jets + HT < 200 GeV
L4DY1ZVTau1b1_METHT.png Figure 104b: Background breakdown vs MET for 4-leptons + OSSF1 + off-Z + Tau1 + at least 1 b-jet + HT < 200 GeV
L4DY2Tau0b0HTV_METHT.png Figure 105a: Background breakdown vs MET for 4-leptons + OSSF2 + on-Z + Tau0 + no b-jets + HT > 200 GeV
L4DY2Tau0b1HTV_METHT.png Figure 105b: Background breakdown vs MET for 4-leptons + OSSF2 + on-Z + Tau0 + at least 1 b-jet + HT > 200 GeV
L4DY2Tau0b0_METHT.png Figure 106a: Background breakdown vs MET for 4-leptons + OSSF2 + on-Z + Tau0 + no b-jets + HT < 200 GeV
L4DY2Tau0b1_METHT.png Figure 106b: Background breakdown vs MET for 4-leptons + OSSF2 + on-Z + Tau0 + at least 1 b-jet + HT < 200 GeV
L4DY2ZVTau0b0HTV_METHT.png Figure 107a: Background breakdown vs MET for 4-leptons + OSSF2 + off-Z + Tau0 + no b-jets + HT > 200 GeV
L4DY2ZVTau0b1HTV_METHT.png Figure 107b: Background breakdown vs MET for 4-leptons + OSSF2 + off-Z + Tau0 + at least 1 b-jet + HT > 200 GeV
L4DY2ZVTau0b0_METHT.png Figure 108a: Background breakdown vs MET for 4-leptons + OSSF2 + off-Z + Tau0 + no b-jets + HT < 200 GeV
L4DY2ZVTau0b1_METHT.png Figure 108b: Background breakdown vs MET for 4-leptons + OSSF2 + off-Z + Tau0 + at least 1 b-jet + HT < 200 GeV
coNLSPproduction.png Table 11: Production modes at the two end points of the co-NLSP exclusion curve, ordered by cross-section. Modes that contribute less than 1% to the total cross-section were not included.

Topic attachments
I Attachment History Action Size Date Who Comment
PDFpdf GMSB_mass_spectra_nh.pdf r1 manage 25.4 K 2014-06-29 - 01:55 EmmanuelContrerasCampana  
PNGpng GMSB_mass_spectra_nh.png r1 manage 22.9 K 2014-06-29 - 01:55 EmmanuelContrerasCampana  
PDFpdf GMSB_mass_spectra_slco.pdf r1 manage 27.0 K 2014-06-29 - 01:55 EmmanuelContrerasCampana  
PNGpng GMSB_mass_spectra_slco.png r1 manage 25.3 K 2014-06-29 - 01:55 EmmanuelContrerasCampana  
PDFpdf GMSB_mass_spectra_stau.pdf r1 manage 25.4 K 2014-06-29 - 01:55 EmmanuelContrerasCampana  
PNGpng GMSB_mass_spectra_stau.png r1 manage 28.9 K 2014-06-29 - 23:46 EmmanuelContrerasCampana  
PDFpdf L3DY0Tau0b0HTV_METHT.pdf r1 manage 15.1 K 2014-06-30 - 00:54 EmmanuelContrerasCampana  
PNGpng L3DY0Tau0b0HTV_METHT.png r1 manage 122.5 K 2014-06-30 - 00:54 EmmanuelContrerasCampana  
PDFpdf L3DY0Tau0b0_METHT.pdf r1 manage 15.2 K 2014-06-30 - 00:54 EmmanuelContrerasCampana  
PNGpng L3DY0Tau0b0_METHT.png r1 manage 121.3 K 2014-06-30 - 00:54 EmmanuelContrerasCampana  
PDFpdf L3DY0Tau0b1HTV_METHT.pdf r1 manage 15.0 K 2014-06-30 - 00:54 EmmanuelContrerasCampana  
PNGpng L3DY0Tau0b1HTV_METHT.png r1 manage 120.3 K 2014-06-30 - 00:54 EmmanuelContrerasCampana  
PDFpdf L3DY0Tau0b1_METHT.pdf r1 manage 15.4 K 2014-06-30 - 00:54 EmmanuelContrerasCampana  
PNGpng L3DY0Tau0b1_METHT.png r1 manage 125.7 K 2014-06-30 - 00:54 EmmanuelContrerasCampana  
PDFpdf L3DY0Tau1b0HTV_METHT.pdf r1 manage 15.1 K 2014-06-30 - 00:56 EmmanuelContrerasCampana  
PNGpng L3DY0Tau1b0HTV_METHT.png r1 manage 124.7 K 2014-06-30 - 00:56 EmmanuelContrerasCampana  
PDFpdf L3DY0Tau1b0_METHT.pdf r1 manage 15.3 K 2014-06-30 - 00:54 EmmanuelContrerasCampana  
PNGpng L3DY0Tau1b0_METHT.png r1 manage 124.6 K 2014-06-30 - 00:54 EmmanuelContrerasCampana  
PDFpdf L3DY0Tau1b1HTV_METHT.pdf r1 manage 15.1 K 2014-06-30 - 00:56 EmmanuelContrerasCampana  
PNGpng L3DY0Tau1b1HTV_METHT.png r1 manage 125.1 K 2014-06-30 - 00:56 EmmanuelContrerasCampana  
PDFpdf L3DY0Tau1b1_METHT.pdf r1 manage 15.3 K 2014-06-30 - 00:56 EmmanuelContrerasCampana  
PNGpng L3DY0Tau1b1_METHT.png r1 manage 125.9 K 2014-06-30 - 00:56 EmmanuelContrerasCampana  
PDFpdf L3DY1Tau0b0HTV_METHT.pdf r1 manage 15.1 K 2014-06-30 - 00:56 EmmanuelContrerasCampana  
PNGpng L3DY1Tau0b0HTV_METHT.png r1 manage 120.9 K 2014-06-30 - 00:56 EmmanuelContrerasCampana  
PDFpdf L3DY1Tau0b0_METHT.pdf r1 manage 15.4 K 2014-06-30 - 00:56 EmmanuelContrerasCampana  
PNGpng L3DY1Tau0b0_METHT.png r1 manage 122.4 K 2014-06-30 - 00:56 EmmanuelContrerasCampana  
PDFpdf L3DY1Tau0b1HTV_METHT.pdf r1 manage 15.1 K 2014-06-30 - 00:58 EmmanuelContrerasCampana  
PNGpng L3DY1Tau0b1HTV_METHT.png r1 manage 120.5 K 2014-06-30 - 01:02 EmmanuelContrerasCampana  
PDFpdf L3DY1Tau0b1_METHT.pdf r1 manage 15.4 K 2014-06-30 - 00:58 EmmanuelContrerasCampana  
PNGpng L3DY1Tau0b1_METHT.png r1 manage 121.5 K 2014-06-30 - 00:58 EmmanuelContrerasCampana  
PDFpdf L3DY1Tau1b0HTV_METHT.pdf r1 manage 15.4 K 2014-06-30 - 01:12 EmmanuelContrerasCampana  
PNGpng L3DY1Tau1b0HTV_METHT.png r1 manage 122.9 K 2014-06-30 - 01:16 EmmanuelContrerasCampana  
PDFpdf L3DY1Tau1b0_METHT.pdf r1 manage 15.6 K 2014-06-30 - 00:58 EmmanuelContrerasCampana  
PNGpng L3DY1Tau1b0_METHT.png r1 manage 128.0 K 2014-06-30 - 01:07 EmmanuelContrerasCampana  
PDFpdf L3DY1Tau1b1HTV_METHT.pdf r1 manage 15.3 K 2014-06-30 - 01:19 EmmanuelContrerasCampana  
PNGpng L3DY1Tau1b1HTV_METHT.png r1 manage 123.6 K 2014-06-30 - 01:19 EmmanuelContrerasCampana  
PDFpdf L3DY1Tau1b1_METHT.pdf r1 manage 15.5 K 2014-06-30 - 01:19 EmmanuelContrerasCampana  
PNGpng L3DY1Tau1b1_METHT.png r1 manage 125.4 K 2014-06-30 - 01:19 EmmanuelContrerasCampana  
PDFpdf L3DY1ZVZHTau0b0HTV_METHT.pdf r1 manage 15.2 K 2014-06-30 - 01:19 EmmanuelContrerasCampana  
PNGpng L3DY1ZVZHTau0b0HTV_METHT.png r1 manage 120.5 K 2014-06-30 - 01:19 EmmanuelContrerasCampana  
PDFpdf L3DY1ZVZHTau0b0_METHT.pdf r1 manage 15.4 K 2014-06-30 - 01:19 EmmanuelContrerasCampana  
PNGpng L3DY1ZVZHTau0b0_METHT.png r1 manage 120.3 K 2014-06-30 - 01:19 EmmanuelContrerasCampana  
PDFpdf L3DY1ZVZHTau0b1HTV_METHT.pdf r1 manage 15.1 K 2014-06-30 - 05:55 EmmanuelContrerasCampana  
PNGpng L3DY1ZVZHTau0b1HTV_METHT.png r1 manage 121.4 K 2014-06-30 - 05:55 EmmanuelContrerasCampana  
PDFpdf L3DY1ZVZHTau0b1_METHT.pdf r1 manage 15.4 K 2014-06-30 - 01:19 EmmanuelContrerasCampana  
PNGpng L3DY1ZVZHTau0b1_METHT.png r1 manage 122.4 K 2014-06-30 - 01:19 EmmanuelContrerasCampana  
PDFpdf L3DY1ZVZHTau1b0HTV_METHT.pdf r1 manage 15.1 K 2014-06-30 - 01:22 EmmanuelContrerasCampana  
PNGpng L3DY1ZVZHTau1b0HTV_METHT.png r1 manage 121.9 K 2014-06-30 - 01:22 EmmanuelContrerasCampana  
PDFpdf L3DY1ZVZHTau1b0_METHT.pdf r1 manage 15.5 K 2014-06-30 - 01:22 EmmanuelContrerasCampana  
PNGpng L3DY1ZVZHTau1b0_METHT.png r1 manage 125.7 K 2014-06-30 - 01:22 EmmanuelContrerasCampana  
PDFpdf L3DY1ZVZHTau1b1HTV_METHT.pdf r1 manage 15.1 K 2014-06-30 - 01:22 EmmanuelContrerasCampana  
PNGpng L3DY1ZVZHTau1b1HTV_METHT.png r1 manage 125.1 K 2014-06-30 - 01:22 EmmanuelContrerasCampana  
PDFpdf L3DY1ZVZHTau1b1_METHT.pdf r1 manage 15.2 K 2014-06-30 - 01:22 EmmanuelContrerasCampana  
PNGpng L3DY1ZVZHTau1b1_METHT.png r1 manage 123.4 K 2014-06-30 - 01:22 EmmanuelContrerasCampana  
PDFpdf L3DY1ZVZLTau0b0HTV_METHT.pdf r1 manage 15.2 K 2014-06-30 - 05:41 EmmanuelContrerasCampana  
PNGpng L3DY1ZVZLTau0b0HTV_METHT.png r1 manage 120.4 K 2014-06-30 - 05:41 EmmanuelContrerasCampana  
PDFpdf L3DY1ZVZLTau0b0_METHT.pdf r1 manage 15.4 K 2014-06-30 - 05:06 EmmanuelContrerasCampana  
PNGpng L3DY1ZVZLTau0b0_METHT.png r1 manage 121.9 K 2014-06-30 - 05:06 EmmanuelContrerasCampana  
PDFpdf L3DY1ZVZLTau0b1HTV_METHT.pdf r1 manage 15.1 K 2014-06-30 - 05:51 EmmanuelContrerasCampana  
PNGpng L3DY1ZVZLTau0b1HTV_METHT.png r1 manage 121.5 K 2014-06-30 - 05:51 EmmanuelContrerasCampana  
PDFpdf L3DY1ZVZLTau0b1_METHT.pdf r1 manage 15.4 K 2014-06-30 - 05:41 EmmanuelContrerasCampana  
PNGpng L3DY1ZVZLTau0b1_METHT.png r1 manage 124.5 K 2014-06-30 - 05:41 EmmanuelContrerasCampana  
PDFpdf L3DY1ZVZLTau1b0HTV_METHT.pdf r1 manage 15.2 K 2014-06-30 - 05:41 EmmanuelContrerasCampana  
PNGpng L3DY1ZVZLTau1b0HTV_METHT.png r1 manage 123.4 K 2014-06-30 - 05:41 EmmanuelContrerasCampana  
PDFpdf L3DY1ZVZLTau1b0_METHT.pdf r1 manage 15.6 K 2014-06-30 - 05:41 EmmanuelContrerasCampana  
PNGpng L3DY1ZVZLTau1b0_METHT.png r1 manage 127.1 K 2014-06-30 - 05:41 EmmanuelContrerasCampana  
PDFpdf L3DY1ZVZLTau1b1HTV_METHT.pdf r1 manage 15.2 K 2014-06-30 - 05:43 EmmanuelContrerasCampana  
PNGpng L3DY1ZVZLTau1b1HTV_METHT.png r1 manage 126.0 K 2014-06-30 - 05:43 EmmanuelContrerasCampana  
PDFpdf L3DY1ZVZLTau1b1_METHT.pdf r1 manage 15.4 K 2014-06-30 - 05:41 EmmanuelContrerasCampana  
PNGpng L3DY1ZVZLTau1b1_METHT.png r1 manage 123.7 K 2014-06-30 - 05:41 EmmanuelContrerasCampana  
PDFpdf L4DY0Tau1b0_METHT.pdf r1 manage 15.2 K 2014-06-30 - 06:03 EmmanuelContrerasCampana  
PNGpng L4DY0Tau1b0_METHT.png r1 manage 126.5 K 2014-06-30 - 06:03 EmmanuelContrerasCampana  
PDFpdf L4DY0Tau1b1_METHT.pdf r1 manage 14.9 K 2014-06-30 - 07:58 EmmanuelContrerasCampana  
PNGpng L4DY0Tau1b1_METHT.png r1 manage 131.7 K 2014-06-30 - 07:58 EmmanuelContrerasCampana  
PDFpdf L4DY1Tau0b0HTV_METHT.pdf r1 manage 15.0 K 2014-06-30 - 06:11 EmmanuelContrerasCampana  
PNGpng L4DY1Tau0b0HTV_METHT.png r1 manage 121.4 K 2014-06-30 - 06:11 EmmanuelContrerasCampana  
PDFpdf L4DY1Tau0b0_METHT.pdf r1 manage 15.2 K 2014-06-30 - 06:11 EmmanuelContrerasCampana  
PNGpng L4DY1Tau0b0_METHT.png r1 manage 119.8 K 2014-06-30 - 06:11 EmmanuelContrerasCampana  
PDFpdf L4DY1Tau0b1HTV_METHT.pdf r1 manage 14.5 K 2014-06-30 - 06:17 EmmanuelContrerasCampana  
PNGpng L4DY1Tau0b1HTV_METHT.png r1 manage 119.3 K 2014-06-30 - 06:17 EmmanuelContrerasCampana  
PDFpdf L4DY1Tau0b1_METHT.pdf r1 manage 15.4 K 2014-06-30 - 06:17 EmmanuelContrerasCampana  
PNGpng L4DY1Tau0b1_METHT.png r1 manage 127.6 K 2014-06-30 - 06:17 EmmanuelContrerasCampana  
PDFpdf L4DY1Tau1b0HTV_METHT.pdf r1 manage 14.8 K 2014-06-30 - 06:17 EmmanuelContrerasCampana  
PNGpng L4DY1Tau1b0HTV_METHT.png r1 manage 117.9 K 2014-06-30 - 06:17 EmmanuelContrerasCampana  
PDFpdf L4DY1Tau1b0_METHT.pdf r1 manage 15.3 K 2014-06-30 - 06:17 EmmanuelContrerasCampana  
PNGpng L4DY1Tau1b0_METHT.png r1 manage 118.1 K 2014-06-30 - 06:17 EmmanuelContrerasCampana  
PDFpdf L4DY1Tau1b1HTV_METHT.pdf r1 manage 14.9 K 2014-06-30 - 06:31 EmmanuelContrerasCampana  
PNGpng L4DY1Tau1b1HTV_METHT.png r1 manage 120.5 K 2014-06-30 - 06:31 EmmanuelContrerasCampana  
PDFpdf L4DY1Tau1b1_METHT.pdf r1 manage 14.9 K 2014-06-30 - 06:17 EmmanuelContrerasCampana  
PNGpng L4DY1Tau1b1_METHT.png r1 manage 117.0 K 2014-06-30 - 06:17 EmmanuelContrerasCampana  
PDFpdf L4DY1ZVTau0b0HTV_METHT.pdf r1 manage 15.1 K 2014-06-30 - 06:31 EmmanuelContrerasCampana  
PNGpng L4DY1ZVTau0b0HTV_METHT.png r1 manage 152.8 K 2014-06-30 - 06:31 EmmanuelContrerasCampana  
PDFpdf L4DY1ZVTau0b0_METHT.pdf r1 manage 15.4 K 2014-06-30 - 06:31 EmmanuelContrerasCampana  
PNGpng L4DY1ZVTau0b0_METHT.png r1 manage 128.8 K 2014-06-30 - 06:31 EmmanuelContrerasCampana  
PDFpdf L4DY1ZVTau0b1HTV_METHT.pdf r1 manage 14.7 K 2014-06-30 - 07:58 EmmanuelContrerasCampana  
PNGpng L4DY1ZVTau0b1HTV_METHT.png r1 manage 127.9 K 2014-06-30 - 07:58 EmmanuelContrerasCampana  
PDFpdf L4DY1ZVTau0b1_METHT.pdf r1 manage 14.8 K 2014-06-30 - 06:31 EmmanuelContrerasCampana  
PNGpng L4DY1ZVTau0b1_METHT.png r1 manage 131.5 K 2014-06-30 - 06:31 EmmanuelContrerasCampana  
PDFpdf L4DY1ZVTau1b0HTV_METHT.pdf r1 manage 15.0 K 2014-06-30 - 06:43 EmmanuelContrerasCampana  
PNGpng L4DY1ZVTau1b0HTV_METHT.png r1 manage 121.4 K 2014-06-30 - 06:43 EmmanuelContrerasCampana  
PDFpdf L4DY1ZVTau1b0_METHT.pdf r1 manage 15.4 K 2014-06-30 - 06:38 EmmanuelContrerasCampana  
PNGpng L4DY1ZVTau1b0_METHT.png r1 manage 120.9 K 2014-06-30 - 06:38 EmmanuelContrerasCampana  
PDFpdf L4DY1ZVTau1b1HTV_METHT.pdf r1 manage 14.8 K 2014-06-30 - 06:43 EmmanuelContrerasCampana  
PNGpng L4DY1ZVTau1b1HTV_METHT.png r1 manage 127.3 K 2014-06-30 - 06:43 EmmanuelContrerasCampana  
PDFpdf L4DY1ZVTau1b1_METHT.pdf r1 manage 15.1 K 2014-06-30 - 06:43 EmmanuelContrerasCampana  
PNGpng L4DY1ZVTau1b1_METHT.png r1 manage 123.3 K 2014-06-30 - 06:43 EmmanuelContrerasCampana  
PDFpdf L4DY2Tau0b0HTV_METHT.pdf r1 manage 15.2 K 2014-06-30 - 06:47 EmmanuelContrerasCampana  
PNGpng L4DY2Tau0b0HTV_METHT.png r1 manage 127.8 K 2014-06-30 - 06:47 EmmanuelContrerasCampana  
PDFpdf L4DY2Tau0b0_METHT.pdf r1 manage 15.3 K 2014-06-30 - 06:47 EmmanuelContrerasCampana  
PNGpng L4DY2Tau0b0_METHT.png r1 manage 122.8 K 2014-06-30 - 06:47 EmmanuelContrerasCampana  
PDFpdf L4DY2Tau0b1HTV_METHT.pdf r1 manage 15.1 K 2014-06-30 - 06:38 EmmanuelContrerasCampana  
PNGpng L4DY2Tau0b1HTV_METHT.png r1 manage 123.8 K 2014-06-30 - 06:38 EmmanuelContrerasCampana  
PDFpdf L4DY2Tau0b1_METHT.pdf r1 manage 15.0 K 2014-06-30 - 06:47 EmmanuelContrerasCampana  
PNGpng L4DY2Tau0b1_METHT.png r1 manage 120.2 K 2014-06-30 - 06:47 EmmanuelContrerasCampana  
PDFpdf L4DY2ZVTau0b0HTV_METHT.pdf r1 manage 15.2 K 2014-06-30 - 06:38 EmmanuelContrerasCampana  
PNGpng L4DY2ZVTau0b0HTV_METHT.png r1 manage 132.0 K 2014-06-30 - 06:38 EmmanuelContrerasCampana  
PDFpdf L4DY2ZVTau0b0_METHT.pdf r1 manage 15.4 K 2014-06-30 - 06:38 EmmanuelContrerasCampana  
PNGpng L4DY2ZVTau0b0_METHT.png r1 manage 129.6 K 2014-06-30 - 06:38 EmmanuelContrerasCampana  
PDFpdf L4DY2ZVTau0b1HTV_METHT.pdf r1 manage 15.2 K 2014-06-30 - 06:38 EmmanuelContrerasCampana  
PNGpng L4DY2ZVTau0b1HTV_METHT.png r1 manage 145.2 K 2014-06-30 - 06:38 EmmanuelContrerasCampana  
PDFpdf L4DY2ZVTau0b1_METHT.pdf r1 manage 15.0 K 2014-06-30 - 06:38 EmmanuelContrerasCampana  
PNGpng L4DY2ZVTau0b1_METHT.png r1 manage 126.5 K 2014-06-30 - 06:38 EmmanuelContrerasCampana  
Unknown file formatroot Limit_NaturalHiggsinoNLSP_5050.root r2 r1 manage 5.1 K 2013-08-26 - 18:55 PeterThomassen  
Unknown file formatroot Limit_NaturalHiggsinoNLSP_BR_chargino150.root r2 r1 manage 5.6 K 2013-08-26 - 18:55 PeterThomassen  
Unknown file formatroot Limit_NaturalHiggsinoNLSP_BR_chargino250.root r2 r1 manage 5.4 K 2013-08-26 - 18:55 PeterThomassen  
Unknown file formatroot Limit_NaturalHiggsinoNLSP_BR_chargino350.root r2 r1 manage 5.2 K 2013-08-26 - 18:55 PeterThomassen  
Unknown file formatroot Limit_NaturalHiggsinoNLSP_hh.root r2 r1 manage 6.7 K 2013-08-26 - 18:55 PeterThomassen  
Unknown file formatroot Limit_NaturalHiggsinoNLSP_zz.root r2 r1 manage 5.1 K 2013-08-26 - 18:55 PeterThomassen  
Unknown file formatroot Limit_T1tttt.root r2 r1 manage 8.2 K 2013-08-26 - 18:55 PeterThomassen  
Unknown file formatroot Limit_T6ttWW.root r2 r1 manage 5.1 K 2013-08-26 - 18:55 PeterThomassen  
Unknown file formatroot Limit_coNLSP.root r3 r2 r1 manage 5.2 K 2013-08-27 - 12:04 PeterThomassen  
Unknown file formatroot Limit_stauNLSP.root r2 r1 manage 10.8 K 2013-08-26 - 18:55 PeterThomassen  
Texttxt NaturalHiggsinoNLSP_5050_AccEff.txt r1 manage 1.7 K 2013-08-26 - 00:09 PeterThomassen  
Texttxt NaturalHiggsinoNLSP_5050_chargino150_AccEff.txt r1 manage 0.3 K 2013-08-26 - 00:09 PeterThomassen  
Texttxt NaturalHiggsinoNLSP_5050_chargino350_AccEff.txt r1 manage 0.2 K 2013-08-26 - 00:09 PeterThomassen  
Texttxt NaturalHiggsinoNLSP_BR_chargino150_AccEff.txt r1 manage 2.9 K 2013-08-26 - 00:09 PeterThomassen  
Texttxt NaturalHiggsinoNLSP_BR_chargino250_AccEff.txt r1 manage 2.3 K 2013-08-26 - 00:09 PeterThomassen  
Texttxt NaturalHiggsinoNLSP_BR_chargino350_AccEff.txt r1 manage 1.9 K 2013-08-26 - 00:09 PeterThomassen  
Texttxt NaturalHiggsinoNLSP_hh_AccEff.txt r1 manage 2.4 K 2013-08-26 - 00:09 PeterThomassen  
Texttxt NaturalHiggsinoNLSP_hh_chargino150_AccEff.txt r1 manage 0.3 K 2013-08-26 - 00:09 PeterThomassen  
Texttxt NaturalHiggsinoNLSP_hh_chargino350_AccEff.txt r1 manage 0.2 K 2013-08-26 - 00:09 PeterThomassen  
Texttxt NaturalHiggsinoNLSP_zz_AccEff.txt r1 manage 2.0 K 2013-08-26 - 00:10 PeterThomassen  
Texttxt NaturalHiggsinoNLSP_zz_chargino150_AccEff.txt r1 manage 0.3 K 2013-08-26 - 00:10 PeterThomassen  
Texttxt NaturalHiggsinoNLSP_zz_chargino350_AccEff.txt r1 manage 0.2 K 2013-08-26 - 00:10 PeterThomassen  
PDFpdf SMS_mass_spectra_T1.pdf r1 manage 21.6 K 2014-06-29 - 01:55 EmmanuelContrerasCampana  
PNGpng SMS_mass_spectra_T1.png r1 manage 14.3 K 2014-06-29 - 01:55 EmmanuelContrerasCampana  
PDFpdf SMS_mass_spectra_T6.pdf r1 manage 21.6 K 2014-06-29 - 01:55 EmmanuelContrerasCampana  
PNGpng SMS_mass_spectra_T6.png r1 manage 24.1 K 2014-06-29 - 01:55 EmmanuelContrerasCampana  
PDFpdf SUS-13-002_Table1.pdf r1 manage 74.4 K 2014-06-29 - 04:47 EmmanuelContrerasCampana  
PNGpng SUS-13-002_Table1.png r1 manage 101.5 K 2014-06-29 - 04:47 EmmanuelContrerasCampana  
PDFpdf SUS-13-002_Table2.pdf r1 manage 118.6 K 2014-06-29 - 04:47 EmmanuelContrerasCampana  
PNGpng SUS-13-002_Table2.png r1 manage 762.0 K 2014-06-29 - 04:59 EmmanuelContrerasCampana  
PDFpdf SUS-13-002_Table3.pdf r1 manage 119.5 K 2014-06-29 - 04:47 EmmanuelContrerasCampana  
PNGpng SUS-13-002_Table3.png r1 manage 653.3 K 2014-06-29 - 04:59 EmmanuelContrerasCampana  
PDFpdf SUS-13-002_Table4.pdf r1 manage 91.2 K 2014-06-29 - 04:47 EmmanuelContrerasCampana  
PNGpng SUS-13-002_Table4.png r1 manage 108.8 K 2014-06-29 - 04:47 EmmanuelContrerasCampana  
PDFpdf SUS-13-002_Table5.pdf r1 manage 91.2 K 2014-06-29 - 04:47 EmmanuelContrerasCampana  
PNGpng SUS-13-002_Table5.png r1 manage 63.6 K 2014-06-29 - 04:47 EmmanuelContrerasCampana  
PDFpdf StopHiggs.pdf r1 manage 57.6 K 2014-06-29 - 01:52 EmmanuelContrerasCampana  
PNGpng StopHiggs.png r1 manage 126.9 K 2014-06-29 - 01:52 EmmanuelContrerasCampana  
PDFpdf T1tttt.pdf r1 manage 8.3 K 2014-06-29 - 01:52 EmmanuelContrerasCampana  
PNGpng T1tttt.png r1 manage 58.0 K 2014-06-29 - 01:52 EmmanuelContrerasCampana  
Texttxt T1tttt_AccEff.txt r1 manage 9.3 K 2013-08-26 - 01:06 PeterThomassen  
PDFpdf T6ttWW.pdf r1 manage 11.4 K 2014-06-29 - 01:52 EmmanuelContrerasCampana  
PNGpng T6ttWW.png r1 manage 50.2 K 2014-06-29 - 01:52 EmmanuelContrerasCampana  
Texttxt T6ttWW_AccEff.txt r1 manage 2.4 K 2013-08-26 - 01:06 PeterThomassen  
PDFpdf TTbarControl_DiLepton_HT.pdf r1 manage 20.0 K 2014-06-29 - 01:22 EmmanuelContrerasCampana  
PNGpng TTbarControl_DiLepton_HT.png r1 manage 202.2 K 2014-06-29 - 01:22 EmmanuelContrerasCampana  
PDFpdf TTbarControl_DiLepton_MET.pdf r1 manage 18.4 K 2014-06-29 - 01:22 EmmanuelContrerasCampana  
PNGpng TTbarControl_DiLepton_MET.png r1 manage 196.3 K 2014-06-29 - 01:22 EmmanuelContrerasCampana  
PDFpdf WZControl_DiLepton_MET.pdf r1 manage 21.2 K 2014-06-29 - 01:22 EmmanuelContrerasCampana  
PNGpng WZControl_DiLepton_MET.png r1 manage 192.3 K 2014-06-29 - 01:22 EmmanuelContrerasCampana  
Texttxt coNLSP_AccEff.txt r1 manage 1.8 K 2013-08-26 - 01:06 PeterThomassen  
PNGpng coNLSPproduction.png r2 r1 manage 80.5 K 2013-08-25 - 21:44 PeterThomassen  
Unknown file formatroot contours_T1tttt.root r1 manage 6.4 K 2013-09-05 - 22:59 PeterThomassen  
Unknown file formatroot contours_T6ttWW.root r1 manage 7.6 K 2013-09-05 - 22:59 PeterThomassen  
PDFpdf curve_NaturalHiggsinoNLSP.pdf r1 manage 31.5 K 2014-06-29 - 03:34 EmmanuelContrerasCampana  
PNGpng curve_NaturalHiggsinoNLSP.png r1 manage 260.7 K 2014-06-29 - 03:34 EmmanuelContrerasCampana  
PDFpdf curve_NaturalHiggsinoNLSP_FixedHiggsino150.pdf r1 manage 15.2 K 2014-06-29 - 03:59 EmmanuelContrerasCampana  
PNGpng curve_NaturalHiggsinoNLSP_FixedHiggsino150.png r1 manage 235.9 K 2014-06-29 - 03:59 EmmanuelContrerasCampana  
PDFpdf curve_NaturalHiggsinoNLSP_FixedHiggsino350.pdf r1 manage 15.1 K 2014-06-29 - 03:59 EmmanuelContrerasCampana  
PNGpng curve_NaturalHiggsinoNLSP_FixedHiggsino350.png r1 manage 232.8 K 2014-06-29 - 03:59 EmmanuelContrerasCampana  
PDFpdf curve_NaturalHiggsinoNLSP_FloatingBR_FixedHiggsino150.pdf r1 manage 15.9 K 2014-06-29 - 04:01 EmmanuelContrerasCampana  
PNGpng curve_NaturalHiggsinoNLSP_FloatingBR_FixedHiggsino150.png r1 manage 255.2 K 2014-06-29 - 04:01 EmmanuelContrerasCampana  
PDFpdf curve_NaturalHiggsinoNLSP_FloatingBR_FixedHiggsino150_overlay_observed.pdf r1 manage 31.8 K 2014-06-30 - 18:52 EmmanuelContrerasCampana  
PNGpng curve_NaturalHiggsinoNLSP_FloatingBR_FixedHiggsino150_overlay_observed.png r1 manage 272.0 K 2014-06-30 - 18:52 EmmanuelContrerasCampana  
PDFpdf curve_NaturalHiggsinoNLSP_FloatingBR_FixedHiggsino250.pdf r1 manage 16.2 K 2014-06-29 - 04:01 EmmanuelContrerasCampana  
PNGpng curve_NaturalHiggsinoNLSP_FloatingBR_FixedHiggsino250.png r1 manage 291.1 K 2014-06-29 - 04:01 EmmanuelContrerasCampana  
PDFpdf curve_NaturalHiggsinoNLSP_FloatingBR_FixedHiggsino250_overlay_observed.pdf r1 manage 36.1 K 2014-06-30 - 18:52 EmmanuelContrerasCampana  
PNGpng curve_NaturalHiggsinoNLSP_FloatingBR_FixedHiggsino250_overlay_observed.png r1 manage 140.5 K 2014-06-30 - 18:52 EmmanuelContrerasCampana  
PDFpdf curve_NaturalHiggsinoNLSP_FloatingBR_FixedHiggsino350.pdf r1 manage 15.2 K 2014-06-29 - 04:01 EmmanuelContrerasCampana  
PNGpng curve_NaturalHiggsinoNLSP_FloatingBR_FixedHiggsino350.png r1 manage 255.6 K 2014-06-29 - 04:01 EmmanuelContrerasCampana  
PDFpdf curve_NaturalHiggsinoNLSP_FloatingBR_FixedHiggsino350_overlay_observed.pdf r1 manage 25.9 K 2014-06-30 - 18:52 EmmanuelContrerasCampana  
PNGpng curve_NaturalHiggsinoNLSP_FloatingBR_FixedHiggsino350_overlay_observed.png r1 manage 262.8 K 2014-06-30 - 18:52 EmmanuelContrerasCampana  
PDFpdf curve_NaturalHiggsinoNLSP_hh.pdf r1 manage 20.0 K 2014-06-29 - 03:34 EmmanuelContrerasCampana  
PNGpng curve_NaturalHiggsinoNLSP_hh.png r1 manage 131.4 K 2014-06-29 - 03:34 EmmanuelContrerasCampana  
PDFpdf curve_NaturalHiggsinoNLSP_hh_FixedHiggsino150.pdf r1 manage 15.5 K 2014-06-29 - 03:59 EmmanuelContrerasCampana  
PNGpng curve_NaturalHiggsinoNLSP_hh_FixedHiggsino150.png r1 manage 251.9 K 2014-06-29 - 03:59 EmmanuelContrerasCampana  
PDFpdf curve_NaturalHiggsinoNLSP_hh_FixedHiggsino350.pdf r1 manage 15.2 K 2014-06-29 - 05:11 EmmanuelContrerasCampana  
PNGpng curve_NaturalHiggsinoNLSP_hh_FixedHiggsino350.png r1 manage 252.2 K 2014-06-29 - 03:59 EmmanuelContrerasCampana  
PDFpdf curve_NaturalHiggsinoNLSP_hh_overlay_observed.pdf r1 manage 21.8 K 2014-06-30 - 18:54 EmmanuelContrerasCampana  
PNGpng curve_NaturalHiggsinoNLSP_hh_overlay_observed.png r1 manage 142.2 K 2014-06-30 - 18:54 EmmanuelContrerasCampana  
PDFpdf curve_NaturalHiggsinoNLSP_overlay_observed.pdf r1 manage 36.1 K 2014-06-30 - 18:54 EmmanuelContrerasCampana  
PNGpng curve_NaturalHiggsinoNLSP_overlay_observed.png r1 manage 264.6 K 2014-06-30 - 18:54 EmmanuelContrerasCampana  
PDFpdf curve_NaturalHiggsinoNLSP_zz.pdf r1 manage 25.2 K 2014-06-29 - 03:34 EmmanuelContrerasCampana  
PNGpng curve_NaturalHiggsinoNLSP_zz.png r1 manage 254.0 K 2014-06-29 - 03:34 EmmanuelContrerasCampana  
PDFpdf curve_NaturalHiggsinoNLSP_zz_FixedHiggsino150.pdf r1 manage 15.1 K 2014-06-29 - 04:00 EmmanuelContrerasCampana  
PNGpng curve_NaturalHiggsinoNLSP_zz_FixedHiggsino150.png r1 manage 224.2 K 2014-06-29 - 04:00 EmmanuelContrerasCampana  
PDFpdf curve_NaturalHiggsinoNLSP_zz_FixedHiggsino350.pdf r1 manage 15.0 K 2014-06-29 - 04:00 EmmanuelContrerasCampana  
PNGpng curve_NaturalHiggsinoNLSP_zz_FixedHiggsino350.png r1 manage 232.9 K 2014-06-29 - 04:00 EmmanuelContrerasCampana  
PDFpdf curve_NaturalHiggsinoNLSP_zz_overlay_observed.pdf r1 manage 24.5 K 2014-06-30 - 18:54 EmmanuelContrerasCampana  
PNGpng curve_NaturalHiggsinoNLSP_zz_overlay_observed.png r1 manage 256.6 K 2014-06-30 - 18:54 EmmanuelContrerasCampana  
PDFpdf curve_StopNaturalHiggsinoNLSP.pdf r3 r2 r1 manage 26.1 K 2014-06-30 - 20:33 EmmanuelContrerasCampana  
PNGpng curve_StopNaturalHiggsinoNLSP.png r3 r2 r1 manage 121.5 K 2014-06-30 - 20:36 EmmanuelContrerasCampana  
PDFpdf curve_StopNaturalHiggsinoNLSP_FloatingBR_FixedHiggsino150.pdf r3 r2 r1 manage 24.0 K 2014-06-30 - 20:33 EmmanuelContrerasCampana  
PNGpng curve_StopNaturalHiggsinoNLSP_FloatingBR_FixedHiggsino150.png r3 r2 r1 manage 259.8 K 2014-06-30 - 20:36 EmmanuelContrerasCampana  
PDFpdf curve_StopNaturalHiggsinoNLSP_FloatingBR_FixedHiggsino250.pdf r3 r2 r1 manage 25.3 K 2014-06-30 - 20:33 EmmanuelContrerasCampana  
PNGpng curve_StopNaturalHiggsinoNLSP_FloatingBR_FixedHiggsino250.png r3 r2 r1 manage 260.5 K 2014-06-30 - 20:36 EmmanuelContrerasCampana  
PDFpdf curve_StopNaturalHiggsinoNLSP_FloatingBR_FixedHiggsino350.pdf r3 r2 r1 manage 21.2 K 2014-06-30 - 20:33 EmmanuelContrerasCampana  
PNGpng curve_StopNaturalHiggsinoNLSP_FloatingBR_FixedHiggsino350.png r3 r2 r1 manage 233.7 K 2014-06-30 - 20:36 EmmanuelContrerasCampana  
PDFpdf curve_StopNaturalHiggsinoNLSP_hh.pdf r3 r2 r1 manage 27.4 K 2014-06-30 - 20:33 EmmanuelContrerasCampana  
PNGpng curve_StopNaturalHiggsinoNLSP_hh.png r3 r2 r1 manage 251.2 K 2014-06-30 - 20:36 EmmanuelContrerasCampana  
PDFpdf curve_StopNaturalHiggsinoNLSP_zz.pdf r3 r2 r1 manage 28.1 K 2014-06-30 - 20:33 EmmanuelContrerasCampana  
PNGpng curve_StopNaturalHiggsinoNLSP_zz.png r3 r2 r1 manage 244.2 K 2014-06-30 - 20:36 EmmanuelContrerasCampana  
PDFpdf curve_T1tttt.pdf r1 manage 15.7 K 2014-06-29 - 05:05 EmmanuelContrerasCampana  
PNGpng curve_T1tttt.png r1 manage 239.4 K 2014-06-29 - 04:18 EmmanuelContrerasCampana  
PDFpdf curve_T1tttt_overlay_observed.pdf r1 manage 18.8 K 2014-06-30 - 18:55 EmmanuelContrerasCampana  
PNGpng curve_T1tttt_overlay_observed.png r1 manage 249.0 K 2014-06-30 - 18:55 EmmanuelContrerasCampana  
PDFpdf curve_T6ttWW.pdf r1 manage 15.3 K 2014-06-29 - 04:18 EmmanuelContrerasCampana  
PNGpng curve_T6ttWW.png r1 manage 241.4 K 2014-06-29 - 04:18 EmmanuelContrerasCampana  
PDFpdf curve_T6ttWW_overlay_eff.pdf r1 manage 16.2 K 2014-06-30 - 18:55 EmmanuelContrerasCampana  
PNGpng curve_T6ttWW_overlay_eff.png r1 manage 173.3 K 2014-06-30 - 18:55 EmmanuelContrerasCampana  
PDFpdf curve_T6ttWW_overlay_observed.pdf r1 manage 17.6 K 2014-06-30 - 18:55 EmmanuelContrerasCampana  
PNGpng curve_T6ttWW_overlay_observed.png r1 manage 228.2 K 2014-06-30 - 18:55 EmmanuelContrerasCampana  
PDFpdf curve_coNLSP.pdf r1 manage 15.9 K 2014-06-29 - 04:18 EmmanuelContrerasCampana  
PNGpng curve_coNLSP.png r1 manage 258.3 K 2014-06-29 - 04:18 EmmanuelContrerasCampana  
PDFpdf curve_coNLSP_overlay_eff.pdf r1 manage 15.8 K 2014-06-30 - 18:52 EmmanuelContrerasCampana  
PNGpng curve_coNLSP_overlay_eff.png r1 manage 172.7 K 2014-06-30 - 18:52 EmmanuelContrerasCampana  
PDFpdf curve_coNLSP_overlay_observed.pdf r1 manage 17.4 K 2014-06-30 - 18:52 EmmanuelContrerasCampana  
PNGpng curve_coNLSP_overlay_observed.png r1 manage 267.0 K 2014-06-30 - 18:52 EmmanuelContrerasCampana  
PDFpdf curve_stauNLSP_3sigma.pdf r1 manage 16.9 K 2014-06-29 - 04:18 EmmanuelContrerasCampana  
PNGpng curve_stauNLSP_3sigma.png r1 manage 310.3 K 2014-06-29 - 04:18 EmmanuelContrerasCampana  
PDFpdf curve_stauNLSP_3sigma_overlay_eff.pdf r1 manage 19.0 K 2014-06-30 - 18:54 EmmanuelContrerasCampana  
PNGpng curve_stauNLSP_3sigma_overlay_eff.png r1 manage 200.2 K 2014-06-30 - 18:54 EmmanuelContrerasCampana  
PDFpdf curve_stauNLSP_3sigma_overlay_observed.pdf r1 manage 20.9 K 2014-06-30 - 18:54 EmmanuelContrerasCampana  
PNGpng curve_stauNLSP_3sigma_overlay_observed.png r1 manage 333.1 K 2014-06-30 - 18:54 EmmanuelContrerasCampana  
PDFpdf slepton_coNLSP.pdf r1 manage 45.6 K 2014-06-29 - 04:14 EmmanuelContrerasCampana  
PNGpng slepton_coNLSP.png r1 manage 57.3 K 2014-06-29 - 01:52 EmmanuelContrerasCampana  
PDFpdf stauNLSP.pdf r1 manage 49.6 K 2014-06-29 - 01:52 EmmanuelContrerasCampana  
PNGpng stauNLSP.png r1 manage 49.4 K 2014-06-29 - 01:52 EmmanuelContrerasCampana  
Texttxt stauNLSP_AccEff.txt r1 manage 11.3 K 2013-08-26 - 01:06 PeterThomassen  
PDFpdf stauNNLSP.pdf r1 manage 54.2 K 2013-08-18 - 05:10 PatrickZywicki  
PNGpng stauNNLSP.png r1 manage 25.6 K 2013-08-24 - 07:54 EmmanuelContrerasCampana  
PDFpdf tcH_Yukawa.pdf r1 manage 116.4 K 2014-06-29 - 04:47 EmmanuelContrerasCampana  
PNGpng tcH_Yukawa.png r1 manage 6.8 K 2014-06-29 - 04:47 EmmanuelContrerasCampana  
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Topic revision: r28 - 2014-07-02 - EmmanuelContrerasCampana
 
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