CMSPublic Web>PhysicsResults>PhysicsResultsSUS>PhysicsResultsSUS13006Preliminary (2014-07-03, KeithUlmer)

Search for electroweak production of charginos, neutralinos, and sleptons using leptonic final states in pp collisions at √s = 8 TeV

Contents:

Abstract

Final states with exactly three leptons, four leptons, two same-sign leptons, two opposite-sign-same-flavor leptons plus two jets, and two opposite-sign leptons inconsistent with Z boson decay, are studied using a data sample consisting of an integrated luminosity of $19.5~{\rm fb}^{{\rm -}1}$ of proton-proton collision data collected in 2012 with the CMS detector at $\sqrt{s}=8~{\rm TeV}$ . The observed event rates are in agreement with expectations from the standard model. The results are used to set limits on the direct production of charginos, neutralinos, and sleptons.

Detailed documentation can be found at SUS-13-006.

Approved Tables and Plots from SUS-13-006

( click on plot to get .pdf )

Introduction

Tables and Figures		Abbreviated Caption
		Figure 1: Chargino-neutralino pair production leading to a three-lepton final state with missing transverse energy (MET). The dotted and dashed lines indicate unstable particles and the LSP, respectively.
		Figure 2: Chargino-neutralino and neutralino-neutralino pair production leading to on-shell W or Z bosons with MET.
		Figure 3: Chargino and slepton pair production leading to opposite-sign lepton pairs with MET. In part (left), each chargino can decay via either mode, giving four possible diagrams that share the same final state. In part (right), the sleptons and thus the daughter leptons share the same flavor.

	Equation 1: Slepton mass parameterization for models in Fig. 1.

Equation 1: Slepton mass parameterization for models in Fig. 1.

Three-lepton search results

Tables and Figures	Abbreviated Caption
	Figure 4: $M_{\rm T}$ versus $M_{\ell\ell}$ for three-lepton events with an ${\rm ee}$ or $\mu\mu$ OSSF dilepton pair, where the third lepton is either an electron or a muon.
	Figure 5: $E_{\rm T}^{\rm miss}$ distribution for three-lepton events with an ${\rm ee}$ or $\mu\mu$ OSSF dilepton pair, where the third lepton is either an electron or a muon. SM expectations are also shown. "Rare SM" refers to standard model processes such as ${\rm t}\bar{\rm t}Z$ , ${\rm t}\bar{\rm t}W$ , and triboson production. Uncertainties shown for the data are Poissonian, including those for bins with zero entries.
	Figure 22: $M_{\rm T}$ versus $M_{\ell\ell}$ for three-lepton events without an OSSF dilepton pair or a hadronic $\tau$ lepton candidate.
	Figure 6: $E_{\rm T}^{\rm miss}$ distribution for three-lepton ${\rm ee}\mu$ and ${\rm e}\mu\mu$ events without an OSSF pair. SM expectations are also shown. "Rare SM" refers to standard model processes such as ${\rm t}\bar{\rm t}Z$ , ${\rm t}\bar{\rm t}W$ , and triboson production.
	Figure 23: $M_{\rm T}$ versus $M_{\ell\ell}$ for three-lepton events with a same-sign ${\rm ee}$ , ${\rm e}\mu$ , or $\mu\mu$ pair and a hadronic $\tau$ lepton candidate.
	Figure 7: $E_{\rm T}^{\rm miss}$ distribution for three-lepton events with a same-sign ${\rm ee}$ , ${\rm e}\mu$ , or $\mu\mu$ pair and one hadronic $\tau$ lepton. SM expectations are also shown. "Rare SM" refers to standard model processes such as ${\rm t}\bar{\rm t}Z$ , ${\rm t}\bar{\rm t}W$ , and triboson production.
	Figure 24: $M_{\rm T}$ versus $M_{\ell\ell}$ for three-lepton events with an opposite-sign, opposite-flavor ${\rm e}\mu$ pair and a hadronic $\tau$ lepton candidate.
	Figure 8: $E_{\rm T}^{\rm miss}$ distribution for three-lepton events with an opposite-sign ${\rm e}\mu$ pair and one hadronic $\tau$ lepton. SM expectations are also shown. "Rare SM" refers to standard model processes such as ${\rm t}\bar{\rm t}Z$ , ${\rm t}\bar{\rm t}W$ , and triboson production.
	Table 1: SM expectations and observations for events with an ${\rm ee}$ or $\mu\mu$ OSSF pair, where the third lepton is either an electron or muon. The uncertainties include both the statistical and systematic components.
	Table 2: SM expectations and observations for ${\rm ee}\mu$ and ${\rm e}\mu\mu$ events without an OSSF pair. The uncertainties include both the statistical and systematic components.
	Table 3: SM expectations and observations for events with a same-sign ${\rm ee}$ , ${\rm e}\mu$ , or $\mu\mu$ pair and one hadronic $\tau$ lepton. The uncertainties include both the statistical and systematic components.
	Table 4: SM expectations and observations for events with an opposite-sign ${\rm e}\mu$ pair and one hadronic $\tau$ lepton. The uncertainties include both the statistical and systematic components.

Search in the four-lepton final state

Tables and Figures	Abbreviated Caption
	Figure 25: $E_{\rm T}^{\rm miss}$ versus $M_{\ell\ell}$ for four-lepton data events with an on-Z OSSF pair and no hadronic $\tau$ lepton candidate. The legend indicates the flavor breakdown of events.
	Table 5: Expected SM backgrounds and observed yields for exclusive channels of four-lepton final states. All categories have four leptons including an OSSF pair consistent with a Z boson. The three sections refer, respectively, to events with one OSSF pair and no hadronic $\tau$ candidate, one OSSF pair and one hadronic $\tau$ candidate, and two OSSF pairs and no hadronic $\tau$ candidate. The uncertainties include both the statistical and systematic components.

Tables and Figures

Abbreviated Caption

Figure 25: $E_{\rm T}^{\rm miss}$ versus $M_{\ell\ell}$ for four-lepton data events with an on-Z OSSF pair and no hadronic $\tau$ lepton candidate. The legend indicates the flavor breakdown of events.

Table 5: Expected SM backgrounds and observed yields for exclusive channels of four-lepton final states. All categories have four leptons including an OSSF pair consistent with a Z boson. The three sections refer, respectively, to events with one OSSF pair and no hadronic $\tau$ candidate, one OSSF pair and one hadronic $\tau$ candidate, and two OSSF pairs and no hadronic $\tau$ candidate. The uncertainties include both the statistical and systematic components.

Search in the same-sign two-lepton final state

Tables and Figures	Abbreviated Caption
	Figure 9: Left: $E_{\rm T}^{\rm miss}$ versus $H_{\rm T}$ for same-sign dilepton candidate events. Only the $E_{\rm T}^{\rm miss} &gt; 120~{\rm GeV}$ region is considered in this analysis. Right: $E_{\rm T}^{\rm miss}$ distribution for same-sign dilepton candidates in comparison to SM expectations. The hatched band shows the combined statistical and systematic errors. The bottom plot shows the error band for the ratio of the observed and total SM expected distributions.
	Table 6: Observed yields and SM expectations for the same-sign dilepton search, with and without a veto on the presence of a third lepton. The uncertainties include both the statistical and systematic components.

Tables and Figures

Abbreviated Caption

Figure 9: Left: $E_{\rm T}^{\rm miss}$ versus $H_{\rm T}$ for same-sign dilepton candidate events. Only the $E_{\rm T}^{\rm miss} &gt; 120~{\rm GeV}$ region is considered in this analysis. Right: $E_{\rm T}^{\rm miss}$ distribution for same-sign dilepton candidates in comparison to SM expectations. The hatched band shows the combined statistical and systematic errors. The bottom plot shows the error band for the ratio of the observed and total SM expected distributions.

Table 6: Observed yields and SM expectations for the same-sign dilepton search, with and without a veto on the presence of a third lepton. The uncertainties include both the statistical and systematic components.

Search in the WZ/ZZ + MET final state with two leptons and two jets

Tables and Figures	Abbreviated Caption
	Figure 10: The $E_{\rm T}^{\rm miss}$ distribution after the dilepton mass requirement $81<m_{\ell\ell}<101~{\rm GeV}$ (left) and the dilepton mass distribution after the signal region requirement $E_{\rm T}^{\rm miss} > 80~{\rm GeV}$ , for the Z+dijet analysis. The observed distribution is compared with the sum of the predicted distributions from the Z+jets, flavor-symmetric, the sum of WZ and ZZ, and rare SM backgrounds. The ratio of observed to predicted yields in each bin is indicated. The error bars indicate the statistical uncertainty in the data and the shaded band indicates the total background uncertainty. "Rare SM" refers to standard model processes such as ${\rm ZZ}$ , ${\rm t}\bar{\rm t}Z$ , ${\rm t}\bar{\rm t}W$ , and triboson production.
	Table 7: Summary of results from the Z+dijet analysis. The total background is the sum of the Z+jets background predicted from the $E_{\rm T}^{\rm miss}$ templates method (Z+jets), the flavor-symmetric (FS) background predicted from ${\rm e}\mu$ events, and the WZ, ZZ, and rare SM backgrounds predicted from simulation. All uncertainties include both the statistical and systematic components.

Tables and Figures

Abbreviated Caption

Figure 10: The $E_{\rm T}^{\rm miss}$ distribution after the dilepton mass requirement $81<m_{\ell\ell}<101~{\rm GeV}$ (left) and the dilepton mass distribution after the signal region requirement $E_{\rm T}^{\rm miss} > 80~{\rm GeV}$ , for the Z+dijet analysis. The observed distribution is compared with the sum of the predicted distributions from the Z+jets, flavor-symmetric, the sum of WZ and ZZ, and rare SM backgrounds. The ratio of observed to predicted yields in each bin is indicated. The error bars indicate the statistical uncertainty in the data and the shaded band indicates the total background uncertainty. "Rare SM" refers to standard model processes such as ${\rm ZZ}$ , ${\rm t}\bar{\rm t}Z$ , ${\rm t}\bar{\rm t}W$ , and triboson production.

Table 7: Summary of results from the Z+dijet analysis. The total background is the sum of the Z+jets background predicted from the $E_{\rm T}^{\rm miss}$ templates method (Z+jets), the flavor-symmetric (FS) background predicted from ${\rm e}\mu$ events, and the WZ, ZZ, and rare SM backgrounds predicted from simulation. All uncertainties include both the statistical and systematic components.

Searches in the final state with non-resonant opposite-sign dileptons

Tables and Figures	Abbreviated Caption
	Figure 11: Schematic event used to illustrate the calculation of the $M_{\rm CT}$ and $M_{{\rm CT}\perp}$ variables. P represents a "parent" particle and C an undetected "child" particle; $v_{\rm a}$ and $v_{\rm b}$ are visible particles.
	Equation 3: The $M_{\rm CT}$ variable definition.
	Equation 4: An upper endpoint of the $M_{\rm CT}$ distribution.
	Equation 5: An upper endpoint of the $M_{{\rm CT}\perp}$ distribution.
	Table 8: Background yields from the best fit of the background-only hypothesis when fitting both channels using separate templates for top and diboson backgrounds. Also shown for comparison are event yields from simulation.
	Figure 11: The $M_{{\rm CT}\perp}$ distribution compared to the background prediction for the opposite-flavor (left) and same-flavor (right) channels. The background prediction is based on a fit of templates derived from control samples or simulation. We also include the distributions for two different chargino masses in the model shown in Fig. 3 (left). In both cases, the LSP mass is set to zero.
	Table 9: Low $M_{{\rm CT}\perp}$ fit yields and extrapolation to the high $M_{{\rm CT}\perp}$ region. Where the predicted value is zero, we give approximate $1\sigma$ upper limits.
	Table 10: Background yields from the best fit of the background-only hypothesis in the same-flavor channel using opposite-flavor events as a template for flavor-symmetric backgrounds.
	Figure 13: The $M_{{\rm CT}\perp}$ distribution compared to the background prediction for the same-flavor channel, where the background prediction is derived from an alternative template method that uses opposite-flavor dilepton events as a control sample (see text). We also include for illustration the distributions for two different slepton masses in the model shown in Fig. 3 (right). In both cases, the LSP mass is set to zero.

Interpretations of the searches

Figures		Abbreviated Caption
		Figure 14: The shading in the $m_{\tilde{\chi}^0_1}$ versus $m_{\tilde{\chi}^0_2}$ ( $m_{\tilde{\chi}^\pm_1}$ ) plane indicates the 95% CL upper limit on the chargino-neutralino production cross section times branching fraction in the flavor-democratic scenario, for the three-lepton search. The contours bound the mass regions excluded at 95% CL assuming the NLO cross sections for a branching fraction of 50%, as appropriate for the visible decay products in this scenario. The contours based on the observations are shown; in addition, the expected bound is shown.
		Figure 15: The shading in the $m_{\tilde{\chi}^0_1}$ versus $m_{\tilde{\chi}^0_2}$ ( $m_{\tilde{\chi}^\pm_1}$ ) plane indicates the 95% CL upper limit on the chargino-neutralino production cross section times branching fraction in the flavor-democratic scenario, for the combined analysis of the three-lepton search and the same-sign dilepton search. The contours bound the mass regions excluded at 95% CL assuming the NLO cross sections for a branching fraction of 50%, as appropriate for the visible decay products in this scenario. The contours based on the observations are shown for the combination; in addition, the expected combined bound is shown. Other contours show separate mass exclusions for the three-lepton search and the same-sign dilepton search alone.
		Figure 16: The exclusion contours for the $\tau$ -enriched scenario corresponding to the results in Fig. 14, for (left) and (right) the combination of the three-lepton searches with SS dilepton analysis, and (bottom) the three-lepton searches.

		Figure 17: The exclusion contours for $\tau$ -dominated scenario corresponding to results in Fig. 14.
		Figure 18: Interpretation of the dilepton ${\rm WZ} + E_{\rm T}^{\rm miss}$ and three-lepton results. The dilepton observed, three-lepton observed, their combination, and combined expected contours are shown.
		Figure 19: Interpretation of the Z+dijet and four-lepton analyses in the GMSB model discussed in the text. The observed and expected cross section upper limits are indicated as a function of the mass parameter $\mu$ , and are compared to the theory cross section. The region $\mu &lt; 370~{\rm GeV}$ is excluded at 95% confidence level.
		Figure 20: Limits on chargino pair production (left) and slepton pair production (right) cross section times branching ratio for charginos and sleptons decaying as in Fig. 3.

	Figure 21: Summary of results for chargino-neutralino production with decays to left-handed sleptons, right-handed sleptons, or direct decays to vector bosons, and chargino-pair production. Where applicable, the $x_{\tilde{\ell}}$ value used to calculate the slepton mass is 0.5.

Figure 21: Summary of results for chargino-neutralino production with decays to left-handed sleptons, right-handed sleptons, or direct decays to vector bosons, and chargino-pair production. Where applicable, the $x_{\tilde{\ell}}$ value used to calculate the slepton mass is 0.5.

Additional Material

Additional Material for Interpretations

Tables and Figures		Abbreviated Caption
		The interpretation of the WZ+MET model in Fig. 18, separately for the three-lepton results (left) and the Z(ll) + dijet results (right).
		Summary of quantitative mass limits in the various models.

Three-lepton search results

Tables and Figures		Abbreviated Caption
		Response (left) and resolution (right) for u1 (top) and u2 (bottom) in Drell-Yan and WZ simulation.

		Left: $E_{\rm T}^{\rm miss}$ spectrum for internal and external conversions in data. The curves have been normalized to the event yields in the smallest sample (the internal conversions) to allow a better shape comparison. Right: Rayleigh-fit to the data $E_{\rm T}^{\rm miss}$ spectrum for di-lepton mass outside the Z mass window and tri-lepton mass inside the Z mass window, this sample is highly enriched in ${\rm Z}\gamma(^{*})$ .
		Tight-to-Loose ratio of tau lepton measured in CS. It is used in SS+tau channel.
		$M_{\rm T}$ distribution for three-lepton events with an ${\rm ee}$ or $\mu\mu$ OSSF dilepton pair, where the third lepton is either an electron or a muon.

		$M_{\rm T}$ distribution for three-lepton events without an ${\rm ee}$ or $\mu\mu$ OSSF dilepton pair.
		Performance of the non-prompt lepton background estimation method in simulation.

Search in the four-lepton final state

	Efficiency ratio vs Rdxy ("b-ness of events") for muons and electrons.
	ft-fsb for taus with Pt between 40 and 60 GeV (ft is the fake-rate for taus and fsb is inversely proportional to jet activity)
	ft-fsb for taus with Pt between 20 and 40 GeV (ft is the fake-rate for taus and fsb is inversely proportional to jet activity)
	3-muon invariant mass showing asymmetric internal conversion.

Search in the WZ/ZZ + MET final state with two leptons and two jets

Tables and Figures	Abbreviated Caption
	The observed MET distribution compared to the sum of the expected backgrounds in the dijet mass Mjj > 110 GeV control region.
	Summary of observed yields compared to the sum of the expected backgrounds in the dijet mass Mjj > 110 GeV control region.
	Data vs. MC comparison of the dilepton mass after an inclusive dilepton selection.
	Comparison of data vs. MC yields in the Z mass window after an inclusive dilepton selection.
	Data vs. MC comparison of the dilepton mass after the preselection of the Z(ll)V(jj) search.
	Comparison of data vs. MC yields in the Z mass window after the preselection of the Z(ll)V(jj) search.
	Validation of the WZ MC in a 3l control region.
	Validation of the ZZ MC in a 4l control region.
	Data vs. MC comparison of the dijet mass after the preselection of the Z(ll)V(jj) search.

Search in the same-sign two-lepton final state

Tables and Figures	Abbreviated Caption
		Charge miss-identification probability for electrons as a function of the electron pt.
		Fake ratios for electrons vs pT and eta.
		Fake ratios for electrons vs pT and eta.
		Prompt ratios for electrons and muons vs pT.
		MET distribution in a WZ-enriched sample, differences between data-MC are taken as syst. error for WZ background prediction.
		Observed and predicted background Njets and Nbjets distribution for the events passing the baseline selection.
		Expected and observed yields in the baseline region showing different channel separately. .

Searches in the final state with non-resonant opposite-sign dileptons

Tables and Figures		Abbreviated Caption
		Simulated distribution of the MCTPerp distributions of Standard Model backgrounds and two signal models. The left plots shows the opposite-flavor channel, while the right shows the same-flavor.
		Comparison of the MCT⊥ shapes of the top control region versus the true top shapes in Monte Carlo simulation in events where the two leptons are of the opposite (a) and same (b) flavor. The Monte Carlo truth histograms from different processes are stacked and their sum normalized to one.
		Comparison of data and Monte Carlo simulation with all preselection cuts applied. We require three leptons, two of which form an invariant mass consistent with a Z boson. In this region WZ background is dominant, and we see good agreement between data and simulation. A two-sample KS test comparing the data and the WZ simulation gives a p-value of 0.23.
		Comparison of data and Monte Carlo simulation with all preselection cuts applied, but the Z mass veto inverted in the same flavor channel. In the low MCT⊥ region, the Z/γ∗ background dominates. Discrepancies from this plot are used to assign a shape systematic to the Z template. In the high MCT⊥ region, the ZZ background dominates, and we see that the agreement is quite good. Y-axis scales are a) log and b) linear.
		Comparison of the MCT⊥ shapes of the non-prompt control region versus the true W+Jets and semileptonic tt shape in Monte Carlo simulation. The shaded region indicates the statistical uncertainty on the signal-region Monte Carlo, which, unlike in other regions, is non- negligible.
		Monte Carlo closure test of the flavor symmetric background template. The flavor symmetric histogram includes top, WW, and WZ backgrounds.

Electronic version of interpretations and acceptance maps

Numbering scheme for analysis channels

Show Channels

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Channel Specification	Channel Number
3L_OSSF_belowZ_MT:0-120_MET:50-100	SR1
3L_OSSF_belowZ_MT:0-120_MET:100-150	SR2
3L_OSSF_belowZ_MT:0-120_MET:150-200	SR3
3L_OSSF_belowZ_MT:0-120_MET:200-inf	SR4
3L_OSSF_belowZ_MT:120-160_MET:0-50	SR5
3L_OSSF_belowZ_MT:120-160_MET:50-100	SR6
3L_OSSF_belowZ_MT:120-160_MET:100-150	SR7
3L_OSSF_belowZ_MT:120-160_MET:150-200	SR8
3L_OSSF_belowZ_MT:120-160_MET:200-inf	SR9
3L_OSSF_belowZ_MT:160-inf_MET:0-50	SR10
3L_OSSF_belowZ_MT:160-inf_MET:50-100	SR11
3L_OSSF_belowZ_MT:160-inf_MET:100-150	SR12
3L_OSSF_belowZ_MT:160-inf_MET:150-200	SR13
3L_OSSF_belowZ_MT:160-inf_MET:200-inf	SR14
3L_OSSF_inZ_MT:0-120_MET:0-50	SR15
3L_OSSF_inZ_MT:0-120_MET:50-100	SR16
3L_OSSF_inZ_MT:0-120_MET:100-150	SR17
3L_OSSF_inZ_MT:0-120_MET:150-200	SR18
3L_OSSF_inZ_MT:0-120_MET:200-inf	SR19
3L_OSSF_inZ_MT:120-160_MET:0-50	SR20
3L_OSSF_inZ_MT:120-160_MET:50-100	SR21
3L_OSSF_inZ_MT:120-160_MET:100-150	SR22
3L_OSSF_inZ_MT:120-160_MET:150-200	SR23
3L_OSSF_inZ_MT:120-160_MET:200-inf	SR24
3L_OSSF_inZ_MT:160-inf_MET:0-50	SR25
3L_OSSF_inZ_MT:160-inf_MET:50-100	SR26
3L_OSSF_inZ_MT:160-inf_MET:100-150	SR27
3L_OSSF_inZ_MT:160-inf_MET:150-200	SR28
3L_OSSF_inZ_MT:160-inf_MET:200-inf	SR29
3L_OSSF_aboveZ_MT:0-120_MET:0-50	SR30
3L_OSSF_aboveZ_MT:0-120_MET:50-100	SR31
3L_OSSF_aboveZ_MT:0-120_MET:100-150	SR32
3L_OSSF_aboveZ_MT:0-120_MET:150-200	SR33
3L_OSSF_aboveZ_MT:0-120_MET:200-inf	SR34
3L_OSSF_aboveZ_MT:120-160_MET:0-50	SR35
3L_OSSF_aboveZ_MT:120-160_MET:50-100	SR36
3L_OSSF_aboveZ_MT:120-160_MET:100-150	SR37
3L_OSSF_aboveZ_MT:120-160_MET:150-200	SR38
3L_OSSF_aboveZ_MT:120-160_MET:200-inf	SR39
3L_OSSF_aboveZ_MT:160-inf_MET:0-50	SR40
3L_OSSF_aboveZ_MT:160-inf_MET:50-100	SR41
3L_OSSF_aboveZ_MT:160-inf_MET:100-150	SR42
3L_OSSF_aboveZ_MT:160-inf_MET:150-200	SR43
3L_OSSF_aboveZ_MT:160-inf_MET:200-inf	SR44
3L_OSOF_belowZ_MT:0-120_MET:0-50	SR45
3L_OSOF_belowZ_MT:0-120_MET:50-100	SR46
3L_OSOF_belowZ_MT:0-120_MET:100-150	SR47
3L_OSOF_belowZ_MT:0-120_MET:150-200	SR48
3L_OSOF_belowZ_MT:0-120_MET:200-inf	SR49
3L_OSOF_belowZ_MT:120-160_MET:0-50	SR50
3L_OSOF_belowZ_MT:120-160_MET:50-100	SR51
3L_OSOF_belowZ_MT:120-160_MET:100-150	SR52
3L_OSOF_belowZ_MT:120-160_MET:150-200	SR53
3L_OSOF_belowZ_MT:120-160_MET:200-inf	SR54
3L_OSOF_belowZ_MT:160-inf_MET:0-50	SR55
3L_OSOF_belowZ_MT:160-inf_MET:50-100	SR56
3L_OSOF_belowZ_MT:160-inf_MET:100-150	SR57
3L_OSOF_belowZ_MT:160-inf_MET:150-200	SR58
3L_OSOF_belowZ_MT:160-inf_MET:200-inf	SR59
3L_OSOF_aboveZ_MT:0-120_MET:0-50	SR75
3L_OSOF_aboveZ_MT:0-120_MET:50-100	SR76
3L_OSOF_aboveZ_MT:0-120_MET:100-150	SR77
3L_OSOF_aboveZ_MT:0-120_MET:150-200	SR78
3L_OSOF_aboveZ_MT:0-120_MET:200-inf	SR79
3L_OSOF_aboveZ_MT:120-160_MET:0-50	SR80
3L_OSOF_aboveZ_MT:120-160_MET:50-100	SR81
3L_OSOF_aboveZ_MT:120-160_MET:100-150	SR82
3L_OSOF_aboveZ_MT:120-160_MET:150-200	SR83
3L_OSOF_aboveZ_MT:120-160_MET:200-inf	SR84
3L_OSOF_aboveZ_MT:160-inf_MET:0-50	SR85
3L_OSOF_aboveZ_MT:160-inf_MET:50-100	SR86
3L_OSOF_aboveZ_MT:160-inf_MET:100-150	SR87
3L_OSOF_aboveZ_MT:160-inf_MET:150-200	SR88
3L_OSOF_aboveZ_MT:160-inf_MET:200-inf	SR89
3L_SS1tau_belowZ_MT:0-120_MET:0-50	SR90
3L_SS1tau_belowZ_MT:0-120_MET:50-100	SR91
3L_SS1tau_belowZ_MT:0-120_MET:100-150	SR92
3L_SS1tau_belowZ_MT:0-120_MET:150-200	SR93
3L_SS1tau_belowZ_MT:0-120_MET:200-inf	SR94
3L_SS1tau_belowZ_MT:120-160_MET:0-50	SR95
3L_SS1tau_belowZ_MT:120-160_MET:50-100	SR96
3L_SS1tau_belowZ_MT:120-160_MET:100-150	SR97
3L_SS1tau_belowZ_MT:120-160_MET:150-200	SR98
3L_SS1tau_belowZ_MT:120-160_MET:200-inf	SR99
3L_SS1tau_belowZ_MT:160-inf_MET:0-50	SR100
3L_SS1tau_belowZ_MT:160-inf_MET:50-100	SR101
3L_SS1tau_belowZ_MT:160-inf_MET:100-150	SR102
3L_SS1tau_belowZ_MT:160-inf_MET:150-200	SR103
3L_SS1tau_belowZ_MT:160-inf_MET:200-inf	SR104
3L_SS1tau_aboveZ_MT:0-120_MET:0-50	SR120
3L_SS1tau_aboveZ_MT:0-120_MET:50-100	SR121
3L_SS1tau_aboveZ_MT:0-120_MET:100-150	SR122
3L_SS1tau_aboveZ_MT:0-120_MET:150-200	SR123
3L_SS1tau_aboveZ_MT:0-120_MET:200-inf	SR124
3L_SS1tau_aboveZ_MT:120-160_MET:0-50	SR125
3L_SS1tau_aboveZ_MT:120-160_MET:50-100	SR126
3L_SS1tau_aboveZ_MT:120-160_MET:100-150	SR127
3L_SS1tau_aboveZ_MT:120-160_MET:150-200	SR128
3L_SS1tau_aboveZ_MT:120-160_MET:200-inf	SR129
3L_SS1tau_aboveZ_MT:160-inf_MET:0-50	SR130
3L_SS1tau_aboveZ_MT:160-inf_MET:50-100	SR131
3L_SS1tau_aboveZ_MT:160-inf_MET:100-150	SR132
3L_SS1tau_aboveZ_MT:160-inf_MET:150-200	SR133
3L_SS1tau_aboveZ_MT:160-inf_MET:200-inf	SR134
3L_OSOF1tau_belowZ_MT:0-120_MET:0-50	SR135
3L_OSOF1tau_belowZ_MT:0-120_MET:50-100	SR136
3L_OSOF1tau_belowZ_MT:0-120_MET:100-150	SR137
3L_OSOF1tau_belowZ_MT:0-120_MET:150-200	SR138
3L_OSOF1tau_belowZ_MT:0-120_MET:200-inf	SR139
3L_OSOF1tau_belowZ_MT:120-160_MET:0-50	SR140
3L_OSOF1tau_belowZ_MT:120-160_MET:50-100	SR141
3L_OSOF1tau_belowZ_MT:120-160_MET:100-150	SR142
3L_OSOF1tau_belowZ_MT:120-160_MET:150-200	SR143
3L_OSOF1tau_belowZ_MT:120-160_MET:200-inf	SR144
3L_OSOF1tau_belowZ_MT:160-inf_MET:0-50	SR145
3L_OSOF1tau_belowZ_MT:160-inf_MET:50-100	SR146
3L_OSOF1tau_belowZ_MT:160-inf_MET:100-150	SR147
3L_OSOF1tau_belowZ_MT:160-inf_MET:150-200	SR148
3L_OSOF1tau_belowZ_MT:160-inf_MET:200-inf	SR149
3L_OSOF1tau_aboveZ_MT:0-120_MET:0-50	SR165
3L_OSOF1tau_aboveZ_MT:0-120_MET:50-100	SR166
3L_OSOF1tau_aboveZ_MT:0-120_MET:100-150	SR167
3L_OSOF1tau_aboveZ_MT:0-120_MET:150-200	SR168
3L_OSOF1tau_aboveZ_MT:0-120_MET:200-inf	SR169
3L_OSOF1tau_aboveZ_MT:120-160_MET:0-50	SR170
3L_OSOF1tau_aboveZ_MT:120-160_MET:50-100	SR171
3L_OSOF1tau_aboveZ_MT:120-160_MET:100-150	SR172
3L_OSOF1tau_aboveZ_MT:120-160_MET:150-200	SR173
3L_OSOF1tau_aboveZ_MT:120-160_MET:200-inf	SR174
3L_OSOF1tau_aboveZ_MT:160-inf_MET:0-50	SR175
3L_OSOF1tau_aboveZ_MT:160-inf_MET:50-100	SR176
3L_OSOF1tau_aboveZ_MT:160-inf_MET:100-150	SR177
3L_OSOF1tau_aboveZ_MT:160-inf_MET:150-200	SR178
3L_OSOF1tau_aboveZ_MT:160-inf_MET:200-inf	SR179
SS_HT0MET200lV	SR181
SS_HT0MET120NJ2bVlV	SR182
2L2J_MET:80-100	SR500
2L2J_MET:100-120	SR501
2L2J_MET:120-150	SR502
2L2J_MET:150-200	SR503
2L2J_MET:200-inf	SR504

Interpretations

The root files contain TCanvas with corresponding plot

Model	Specification	Analysis	Link to the file
Chargino-Neutralino Production	Flavor-democratic, x=0.5, need to add 50% penalty in case of left-handed sleptons	3l	Flavor-democratic x=0.5
Chargino-Neutralino Production	Flavor-democratic, x=0.05, need to add 50% penalty in case of left-handed sleptons	3l + SS	Flavor-democratic x=0.05
Chargino-Neutralino Production	Flavor-democratic, x=0.95, need to add 50% penalty in case of left-handed sleptons	3l + SS	Flavor-democratic x=0.95
Chargino-Neutralino Production	Tau-enriched, x=0.5, no penalty	3l	Tau-enriched x=0.5
Chargino-Neutralino Production	Tau-enriched, x=0.05, no penalty	3l + SS	Tau-enriched x=0.05
Chargino-Neutralino Production	Tau-enriched, x=0.95, no penalty	3l + SS	Tau-enriched x=0.95
Chargino-Neutralino Production	Tau-dominated, x=0.5, no penalty	3l	Tau-dominated x=0.5
Chargino-Neutralino Production	WZ, need to add 10.1% penalty for Z BF	3l + 2l2j	Intermediate WZ
Chargino-Chargino Production	Decay via sleptons and sneutrinos	OS MCT	Chargino-Chargino
Slepton-Slepton Production	Only smuons and selectrons	OS MCT	Slepton-Slepton

3 Lepton Analysis

The root files contain the efficiencies for the signal regions used in the limits for the given model.

Model	Specification	Analysis	Link to the file
Chargino-Neutralino Production	Flavor-democratic, x=0.5, need to add 50% penalty in case of left-handed sleptons	3l	Flavor-democratic x=0.5
Chargino-Neutralino Production	Flavor-democratic, x=0.05, need to add 50% penalty in case of left-handed sleptons	3l	Flavor-democratic x=0.05
Chargino-Neutralino Production	Flavor-democratic, x=0.95, need to add 50% penalty in case of left-handed sleptons	3l	Flavor-democratic x=0.95
Chargino-Neutralino Production	Tau-enriched, x=0.5, no penalty	3l	Tau-enriched x=0.5
Chargino-Neutralino Production	Tau-enriched, x=0.05, no penalty	3l	Tau-enriched x=0.05
Chargino-Neutralino Production	Tau-enriched, x=0.95, no penalty	3l	Tau-enriched x=0.95
Chargino-Neutralino Production	Tau-dominated, x=0.5, no penalty	3l	Tau-dominated x=0.5
Chargino-Neutralino Production	WZ, need to add 10.1% penalty for Z BF	3l	Intermediate WZ

Opposite-Sign Analysis using MCT

These files contain the signal efficiencies in the MCTPerp > 120 GeV region for the cut-based analysis. The CSV files have a header row describing the fields. "mass1" refers to the pair-produced particle and "mass2" refers to the LSP. The uncertainty on the acceptance is purely statistical. No systematics are included.

Model	Specification	Analysis	Link to the file
Chargino-Chargino Production	Decay via sleptons and sneutrinos	OS MCT	Chargino-Chargino
Slepton-Slepton Production	Only smuons and selectrons	OS MCT	Slepton-Slepton

Attachments

Topic attachments
I	Attachment	History	Action	Size	Date	Who	Comment
pdf	16-33-50-15319-exclusion_TChiWZ_3l.pdf	r1	manage	45.1 K	2013-07-16 - 20:57	BenHooberman
png	16-33-50-15319-exclusion_TChiWZ_3l.png	r1	manage	202.6 K	2013-07-16 - 20:57	BenHooberman
pdf	16-33-50-37633-exclusion_TChiWZ_2l2j.pdf	r1	manage	24.3 K	2013-07-16 - 20:57	BenHooberman
png	16-33-50-37633-exclusion_TChiWZ_2l2j.png	r1	manage	188.6 K	2013-07-16 - 20:57	BenHooberman
pdf	3-1datamc.pdf	r1	manage	249.3 K	2013-07-10 - 19:44	NicholasEggert
png	3-1datamc.png	r1	manage	49.7 K	2013-07-10 - 19:44	NicholasEggert
pdf	3-1leptonCR.pdf	r1	manage	229.6 K	2013-07-10 - 19:44	NicholasEggert
png	3-1leptonCR.png	r1	manage	40.7 K	2013-07-10 - 19:44	NicholasEggert
pdf	3-1leptonData.pdf	r1	manage	227.2 K	2013-07-10 - 19:44	NicholasEggert
png	3-1leptonData.png	r1	manage	41.6 K	2013-07-10 - 19:44	NicholasEggert
pdf	3l_mt_1.pdf	r1	manage	16.9 K	2013-07-14 - 15:32	LesyaShchutska
png	3l_mt_1.png	r1	manage	23.9 K	2013-07-14 - 15:32	LesyaShchutska
pdf	3l_mt_2.pdf	r1	manage	20.3 K	2013-07-14 - 15:32	LesyaShchutska
png	3l_mt_2.png	r1	manage	26.9 K	2013-07-14 - 15:32	LesyaShchutska
pdf	3l_mt_3.pdf	r1	manage	17.2 K	2013-07-14 - 15:32	LesyaShchutska
png	3l_mt_3.png	r1	manage	25.0 K	2013-07-14 - 15:32	LesyaShchutska
pdf	3l_mt_4.pdf	r1	manage	16.7 K	2013-07-14 - 15:32	LesyaShchutska
png	3l_mt_4.png	r1	manage	23.0 K	2013-07-14 - 15:32	LesyaShchutska
pdf	3l_mt_5.pdf	r1	manage	16.9 K	2013-07-14 - 15:32	LesyaShchutska
png	3l_mt_5.png	r1	manage	24.3 K	2013-07-14 - 15:32	LesyaShchutska
pdf	ChMissID_Prob2_Pt.pdf	r1	manage	14.8 K	2013-07-10 - 17:04	SantiagoFolgueras	AN-12-330_v15
png	ChMissID_Prob2_Pt.png	r1	manage	28.5 K	2013-07-10 - 17:04	SantiagoFolgueras	AN-12-330_v15
pdf	EffRatvsRdxy_leptons.pdf	r1	manage	15.9 K	2013-07-15 - 09:51	PeterThomassen
png	EffRatvsRdxy_leptons.png	r1	manage	47.1 K	2013-07-15 - 09:51	PeterThomassen
pdf	Eq1.pdf	r2 r1	manage	72.1 K	2013-07-10 - 18:09	LesyaShchutska
png	Eq1.png	r2 r1	manage	17.1 K	2013-07-10 - 18:09	LesyaShchutska
pdf	Eq2.pdf	r1	manage	93.5 K	2013-07-10 - 15:34	LesyaShchutska
png	Eq2.png	r1	manage	42.5 K	2013-07-10 - 15:34	LesyaShchutska
pdf	Eq3.pdf	r1	manage	66.3 K	2013-07-10 - 15:34	LesyaShchutska
png	Eq3.png	r1	manage	30.5 K	2013-07-10 - 15:34	LesyaShchutska
pdf	Eq4.pdf	r1	manage	41.8 K	2013-07-10 - 15:34	LesyaShchutska
png	Eq4.png	r1	manage	25.8 K	2013-07-10 - 15:34	LesyaShchutska
pdf	Eq5.pdf	r1	manage	58.8 K	2013-07-10 - 15:34	LesyaShchutska
png	Eq5.png	r1	manage	36.4 K	2013-07-10 - 15:34	LesyaShchutska
pdf	FRatio_Electrons_Eta.pdf	r2 r1	manage	14.0 K	2013-07-15 - 18:15	SantiagoFolgueras	AN-12-330_v15
png	FRatio_Electrons_Eta.png	r2 r1	manage	15.9 K	2013-07-15 - 18:15	SantiagoFolgueras	AN-12-330_v15
pdf	FRatio_Electrons_Pt.pdf	r2 r1	manage	14.2 K	2013-07-15 - 18:16	SantiagoFolgueras	AN-12-330_v15
png	FRatio_Electrons_Pt.png	r2 r1	manage	17.3 K	2013-07-15 - 18:17	SantiagoFolgueras	AN-12-330_v15
pdf	FRatio_Muons_Eta.pdf	r2 r1	manage	14.1 K	2013-07-15 - 18:17	SantiagoFolgueras	AN-12-330_v15
png	FRatio_Muons_Eta.png	r2 r1	manage	15.8 K	2013-07-15 - 18:17	SantiagoFolgueras	AN-12-330_v15
pdf	FRatio_Muons_Pt.pdf	r2 r1	manage	14.3 K	2013-07-15 - 18:17	SantiagoFolgueras	AN-12-330_v15
png	FRatio_Muons_Pt.png	r2 r1	manage	17.3 K	2013-07-15 - 18:17	SantiagoFolgueras	AN-12-330_v15
pdf	FTvsFSB_DiLepton_highPt.pdf	r1	manage	15.0 K	2013-07-15 - 09:51	PeterThomassen
png	FTvsFSB_DiLepton_highPt.png	r1	manage	54.7 K	2013-07-15 - 09:51	PeterThomassen
pdf	FTvsFSB_DiLepton_lowPt.pdf	r1	manage	14.9 K	2013-07-15 - 09:51	PeterThomassen
png	FTvsFSB_DiLepton_lowPt.png	r1	manage	54.1 K	2013-07-15 - 09:51	PeterThomassen
pdf	HT0MET120.pdf	r1	manage	50.9 K	2013-07-10 - 17:22	SantiagoFolgueras
png	HT0MET120.png	r1	manage	12.7 K	2013-07-10 - 17:22	SantiagoFolgueras
pdf	MCT-diag.pdf	r1	manage	28.4 K	2013-07-10 - 15:37	LesyaShchutska
png	MCT-diag.png	r1	manage	8.3 K	2013-07-10 - 15:37	LesyaShchutska
pdf	MET_log.pdf	r1	manage	16.1 K	2013-07-10 - 17:22	SantiagoFolgueras
png	MET_log.png	r1	manage	46.4 K	2013-07-10 - 17:49	SantiagoFolgueras
pdf	OSDil_MCTDistribution_of.pdf	r1	manage	245.7 K	2013-07-10 - 15:36	LesyaShchutska
png	OSDil_MCTDistribution_of.pdf_thumb.png	r1	manage	80.6 K	2013-07-10 - 15:36	LesyaShchutska
pdf	OSDil_MCTDistribution_sf.pdf	r1	manage	246.9 K	2013-07-10 - 15:36	LesyaShchutska
png	OSDil_MCTDistribution_sf.pdf_thumb.png	r1	manage	89.5 K	2013-07-10 - 15:36	LesyaShchutska
pdf	OSDil_MCTDistribution_sf2.pdf	r1	manage	306.0 K	2013-07-10 - 15:36	LesyaShchutska
png	OSDil_MCTDistribution_sf2.pdf_thumb.png	r1	manage	84.0 K	2013-07-10 - 15:36	LesyaShchutska
pdf	ObsPred_NBJetsMed_lin.pdf	r1	manage	15.0 K	2013-07-10 - 17:44	SantiagoFolgueras
png	ObsPred_NBJetsMed_lin.png	r1	manage	73.6 K	2013-07-10 - 17:22	SantiagoFolgueras
pdf	ObsPred_NJets_lin.pdf	r1	manage	15.5 K	2013-07-10 - 17:22	SantiagoFolgueras
png	ObsPred_NJets_lin.png	r1	manage	84.7 K	2013-07-10 - 17:22	SantiagoFolgueras
pdf	PRatio_Electrons_Pt.pdf	r1	manage	13.9 K	2013-07-10 - 17:22	SantiagoFolgueras
png	PRatio_Electrons_Pt.png	r1	manage	20.5 K	2013-07-10 - 17:22	SantiagoFolgueras
pdf	PRatio_Muons_Pt.pdf	r1	manage	14.0 K	2013-07-10 - 17:23	SantiagoFolgueras
png	PRatio_Muons_Pt.png	r1	manage	20.2 K	2013-07-10 - 17:23	SantiagoFolgueras
pdf	Rayleighfit_data.pdf	r1	manage	17.0 K	2013-07-14 - 15:42	LesyaShchutska
png	Rayleighfit_data.png	r1	manage	114.0 K	2013-07-14 - 15:42	LesyaShchutska
pdf	SS_HTvsMET.pdf	r1	manage	33.8 K	2013-07-10 - 14:25	LesyaShchutska
png	SS_HTvsMET.pdf_thumb.png	r1	manage	50.1 K	2013-07-10 - 14:25	LesyaShchutska
pdf	SS_MET.pdf	r1	manage	15.5 K	2013-07-10 - 14:25	LesyaShchutska
png	SS_MET.pdf_thumb.png	r1	manage	66.3 K	2013-07-10 - 14:25	LesyaShchutska
pdf	TChiNuSlep_slep.pdf	r1	manage	14.2 K	2013-07-10 - 10:15	LesyaShchutska
png	TChiNuSlep_slep.pdf_thumb.png	r2 r1	manage	23.2 K	2013-07-10 - 10:26	LesyaShchutska
pdf	TChiNuSlep_snu.pdf	r1	manage	14.2 K	2013-07-10 - 10:15	LesyaShchutska
png	TChiNuSlep_snu.pdf_thumb.png	r2 r1	manage	23.2 K	2013-07-10 - 10:26	LesyaShchutska
root	TChiSlepSnu_largex.root	r1	manage	187.2 K	2013-07-15 - 11:22	PieterEveraerts
root	TChiSlepSnu_largex_enriched.root	r1	manage	159.1 K	2013-07-15 - 11:22	PieterEveraerts
root	TChiSlepSnu_middlex.root	r1	manage	247.3 K	2013-07-15 - 11:22	PieterEveraerts
root	TChiSlepSnu_middlex_enriched.root	r1	manage	210.4 K	2013-07-15 - 11:22	PieterEveraerts
root	TChiSlepSnu_smallx.root	r1	manage	224.0 K	2013-07-15 - 11:22	PieterEveraerts
root	TChiSlepSnu_smallx_enriched.root	r1	manage	131.7 K	2013-07-15 - 11:22	PieterEveraerts
root	TChiStauSnu.root	r1	manage	93.9 K	2013-07-15 - 11:22	PieterEveraerts
root	TChiWZ.root	r1	manage	161.6 K	2013-07-15 - 11:22	PieterEveraerts
pdf	TChipmSlepSnuDiagram.pdf	r1	manage	14.5 K	2013-07-10 - 10:15	LesyaShchutska
png	TChipmSlepSnuDiagram.pdf_thumb.png	r2 r1	manage	23.0 K	2013-07-10 - 10:26	LesyaShchutska
csv	TChipmSlepSnu_acceptance.csv	r1	manage	55.8 K	2013-07-16 - 00:46	NicholasEggert
csv	TChipmSlepSnu_acceptance_20130815.csv	r1	manage	47.6 K	2013-09-25 - 21:05	NicholasEggert
pdf	TChiwz.pdf	r1	manage	12.6 K	2013-07-10 - 10:15	LesyaShchutska
png	TChiwz.pdf_thumb.png	r2 r1	manage	23.1 K	2013-07-10 - 10:26	LesyaShchutska
pdf	TChizz.pdf	r1	manage	11.2 K	2013-07-10 - 10:15	LesyaShchutska
png	TChizz.pdf_thumb.png	r2 r1	manage	17.0 K	2013-07-10 - 10:26	LesyaShchutska
pdf	TLTau.pdf	r1	manage	14.0 K	2013-07-16 - 16:40	NikolozSkhirtladze
png	TLTau.png	r1	manage	15.3 K	2013-07-16 - 16:54	NikolozSkhirtladze
pdf	TSlepSlepDiagram.pdf	r1	manage	11.1 K	2013-07-10 - 10:16	LesyaShchutska
png	TSlepSlepDiagram.pdf_thumb.png	r2 r1	manage	21.0 K	2013-07-10 - 10:26	LesyaShchutska
csv	TSlepSlep_acceptance.csv	r1	manage	8.4 K	2013-07-16 - 00:46	NicholasEggert
pdf	Table1.pdf	r2 r1	manage	85.8 K	2013-07-18 - 00:01	LesyaShchutska
png	Table1.png	r2 r1	manage	358.6 K	2013-07-18 - 00:01	LesyaShchutska
pdf	Table10.pdf	r1	manage	52.0 K	2013-07-10 - 15:36	LesyaShchutska
png	Table10.png	r1	manage	122.8 K	2013-07-10 - 15:36	LesyaShchutska
pdf	Table2.pdf	r2 r1	manage	83.3 K	2013-07-18 - 00:01	LesyaShchutska
png	Table2.png	r2 r1	manage	288.6 K	2013-07-18 - 00:01	LesyaShchutska
pdf	Table3.pdf	r2 r1	manage	82.8 K	2013-07-18 - 00:01	LesyaShchutska
png	Table3.png	r2 r1	manage	277.3 K	2013-07-18 - 00:01	LesyaShchutska
pdf	Table4.pdf	r2 r1	manage	83.4 K	2013-07-18 - 00:01	LesyaShchutska
png	Table4.png	r2 r1	manage	291.3 K	2013-07-18 - 00:01	LesyaShchutska
pdf	Table5.pdf	r1	manage	62.4 K	2013-07-10 - 14:09	LesyaShchutska
png	Table5.png	r1	manage	194.8 K	2013-07-10 - 14:09	LesyaShchutska
pdf	Table6.pdf	r1	manage	71.3 K	2013-07-10 - 14:25	LesyaShchutska
png	Table6.png	r1	manage	123.5 K	2013-07-10 - 14:25	LesyaShchutska
pdf	Table7.pdf	r2 r1	manage	67.5 K	2013-07-14 - 23:32	LesyaShchutska
png	Table7.png	r2 r1	manage	452.3 K	2013-07-14 - 23:32	LesyaShchutska
pdf	Table8.pdf	r1	manage	88.8 K	2013-07-10 - 15:36	LesyaShchutska
png	Table8.png	r1	manage	167.0 K	2013-07-10 - 15:36	LesyaShchutska
pdf	Table9.pdf	r1	manage	74.0 K	2013-07-10 - 15:36	LesyaShchutska
png	Table9.png	r1	manage	188.2 K	2013-07-10 - 15:36	LesyaShchutska
pdf	WZ_19p5fb.pdf	r1	manage	24.5 K	2013-07-14 - 23:57	BenHooberman
png	WZ_19p5fb.png	r1	manage	80.8 K	2013-07-14 - 23:57	BenHooberman
pdf	ZDIJET_metDistribution.pdf	r1	manage	18.9 K	2013-07-10 - 14:52	LesyaShchutska
png	ZDIJET_metDistribution.pdf_thumb.png	r1	manage	95.6 K	2013-07-10 - 14:52	LesyaShchutska
pdf	ZDIJET_mllDistribution.pdf	r1	manage	16.9 K	2013-07-10 - 14:52	LesyaShchutska
png	ZDIJET_mllDistribution.pdf_thumb.png	r1	manage	59.9 K	2013-07-10 - 14:52	LesyaShchutska
pdf	ZZ_19p5fb.pdf	r1	manage	24.1 K	2013-07-14 - 23:57	BenHooberman
png	ZZ_19p5fb.png	r1	manage	81.5 K	2013-07-14 - 23:57	BenHooberman
pdf	adtest.pdf	r2 r1	manage	148.2 K	2013-07-10 - 23:53	LesyaShchutska
png	adtest.png	r1	manage	48.4 K	2013-07-10 - 23:53	LesyaShchutska
pdf	btp_met.pdf	r2 r1	manage	16.7 K	2013-07-14 - 23:49	LesyaShchutska
png	btp_met.png	r2 r1	manage	13.3 K	2013-07-14 - 23:49	LesyaShchutska
pdf	btp_mt.pdf	r1	manage	17.5 K	2013-07-14 - 15:37	LesyaShchutska
png	btp_mt.png	r1	manage	13.8 K	2013-07-14 - 15:37	LesyaShchutska
pdf	closure_fake.pdf	r1	manage	235.1 K	2013-07-10 - 19:44	NicholasEggert
png	closure_fake.png	r1	manage	51.0 K	2013-07-10 - 19:44	NicholasEggert
pdf	closure_fs.pdf	r1	manage	242.1 K	2013-07-10 - 19:46	NicholasEggert
png	closure_fs.png	r1	manage	64.5 K	2013-07-10 - 19:46	NicholasEggert
pdf	closure_top_of.pdf	r1	manage	239.5 K	2013-07-10 - 19:46	NicholasEggert
png	closure_top_of.png	r1	manage	53.0 K	2013-07-10 - 19:46	NicholasEggert
pdf	closure_top_sf.pdf	r1	manage	241.5 K	2013-07-10 - 19:46	NicholasEggert
png	closure_top_sf.png	r1	manage	54.4 K	2013-07-10 - 19:46	NicholasEggert
pdf	data_mc_3l.pdf	r2 r1	manage	252.9 K	2013-07-15 - 23:27	NicholasEggert
png	data_mc_3l.png	r2 r1	manage	83.4 K	2013-07-15 - 23:28	NicholasEggert
pdf	data_mc_3l_linear.pdf	r1	manage	252.0 K	2013-07-15 - 23:28	NicholasEggert
png	data_mc_3l_linear.png	r1	manage	62.8 K	2013-07-15 - 23:28	NicholasEggert
pdf	data_mc_z.pdf	r2 r1	manage	259.6 K	2013-07-15 - 23:28	NicholasEggert
png	data_mc_z.png	r2 r1	manage	81.2 K	2013-07-15 - 23:28	NicholasEggert
pdf	data_mc_z_linear.pdf	r2 r1	manage	258.3 K	2013-07-15 - 23:28	NicholasEggert
png	data_mc_z_linear.png	r2 r1	manage	60.5 K	2013-07-15 - 23:28	NicholasEggert
pdf	dilmass_19p5fb.pdf	r1	manage	32.5 K	2013-07-14 - 23:57	BenHooberman
png	dilmass_19p5fb.png	r1	manage	122.4 K	2013-07-14 - 23:57	BenHooberman
pdf	dilmass_19p5fb_table.pdf	r1	manage	72.5 K	2013-07-14 - 23:57	BenHooberman
png	dilmass_19p5fb_table.png	r1	manage	234.9 K	2013-07-14 - 23:57	BenHooberman
pdf	dilmass_19p5fb_targeted_table.pdf	r1	manage	63.7 K	2013-07-14 - 23:57	BenHooberman
png	dilmass_19p5fb_targeted_table.png	r1	manage	180.6 K	2013-07-14 - 23:57	BenHooberman
pdf	dilmass_targeted_19p5fb.pdf	r1	manage	23.9 K	2013-07-14 - 23:57	BenHooberman
png	dilmass_targeted_19p5fb.png	r1	manage	111.5 K	2013-07-14 - 23:57	BenHooberman
pdf	exclusion_Combined.pdf	r2 r1	manage	17.2 K	2013-07-14 - 19:37	LesyaShchutska
png	exclusion_Combined.pdf_thumb.png	r4 r3 r2 r1	manage	402.4 K	2013-07-20 - 17:13	LesyaShchutska
pdf	exclusion_GMSB.pdf	r1	manage	15.3 K	2013-07-10 - 16:14	LesyaShchutska
png	exclusion_GMSB.pdf_thumb.png	r1	manage	63.6 K	2013-07-10 - 16:14	LesyaShchutska
pdf	exclusion_TChiSlepSnu_2a_0_05.pdf	r2 r1	manage	25.4 K	2013-07-14 - 19:37	LesyaShchutska
png	exclusion_TChiSlepSnu_2a_0_05.pdf_thumb.png	r2 r1	manage	110.6 K	2013-07-14 - 19:37	LesyaShchutska
root	exclusion_TChiSlepSnu_2a_0_05.root	r1	manage	46.7 K	2013-07-18 - 15:30	FedorRatnikov
pdf	exclusion_TChiSlepSnu_2a_0_5.pdf	r2 r1	manage	25.0 K	2013-07-14 - 19:37	LesyaShchutska
png	exclusion_TChiSlepSnu_2a_0_5.pdf_thumb.png	r2 r1	manage	106.8 K	2013-07-14 - 19:37	LesyaShchutska
root	exclusion_TChiSlepSnu_2a_0_5.root	r1	manage	44.8 K	2013-07-18 - 15:25	FedorRatnikov
pdf	exclusion_TChiSlepSnu_2a_0_95.pdf	r2 r1	manage	25.4 K	2013-07-14 - 19:37	LesyaShchutska
png	exclusion_TChiSlepSnu_2a_0_95.pdf_thumb.png	r2 r1	manage	111.7 K	2013-07-14 - 19:37	LesyaShchutska
root	exclusion_TChiSlepSnu_2a_0_95.root	r1	manage	48.1 K	2013-07-18 - 15:25	FedorRatnikov
pdf	exclusion_TChiSlepSnu_2i_0_05.pdf	r2 r1	manage	25.5 K	2013-07-14 - 19:38	LesyaShchutska
png	exclusion_TChiSlepSnu_2i_0_05.pdf_thumb.png	r2 r1	manage	113.0 K	2013-07-14 - 19:38	LesyaShchutska
root	exclusion_TChiSlepSnu_2i_0_05.root	r1	manage	42.8 K	2013-07-18 - 15:25	FedorRatnikov
pdf	exclusion_TChiSlepSnu_2i_0_5.pdf	r2 r1	manage	25.3 K	2013-07-14 - 19:38	LesyaShchutska
png	exclusion_TChiSlepSnu_2i_0_5.pdf_thumb.png	r2 r1	manage	108.4 K	2013-07-14 - 19:38	LesyaShchutska
root	exclusion_TChiSlepSnu_2i_0_5.root	r1	manage	41.4 K	2013-07-18 - 15:25	FedorRatnikov
pdf	exclusion_TChiSlepSnu_2i_0_95.pdf	r2 r1	manage	25.3 K	2013-07-14 - 19:38	LesyaShchutska
png	exclusion_TChiSlepSnu_2i_0_95.pdf_thumb.png	r2 r1	manage	113.3 K	2013-07-14 - 19:38	LesyaShchutska
root	exclusion_TChiSlepSnu_2i_0_95.root	r1	manage	44.0 K	2013-07-18 - 15:25	FedorRatnikov
pdf	exclusion_TChiStauSnu_0_5.pdf	r2 r1	manage	22.3 K	2013-07-14 - 19:38	LesyaShchutska
png	exclusion_TChiStauSnu_0_5.pdf_thumb.png	r2 r1	manage	84.8 K	2013-07-14 - 19:38	LesyaShchutska
root	exclusion_TChiStauSnu_0_5.root	r1	manage	43.0 K	2013-07-18 - 15:25	FedorRatnikov
pdf	exclusion_TChiWZ.pdf	r3 r2 r1	manage	25.2 K	2013-07-16 - 16:13	BenHooberman
png	exclusion_TChiWZ.pdf_thumb.png	r3 r2 r1	manage	239.7 K	2013-07-16 - 16:19	BenHooberman
root	exclusion_TChiWZ.root	r1	manage	35.3 K	2013-07-18 - 15:25	FedorRatnikov
root	exclusion_TChiWZ_2l2j.root	r1	manage	37.5 K	2013-07-18 - 15:25	FedorRatnikov
root	exclusion_TChiWZ_3l.root	r1	manage	36.2 K	2013-07-18 - 15:25	FedorRatnikov
pdf	exclusion_TChipmSlepSnu.pdf	r2 r1	manage	24.0 K	2013-07-14 - 19:37	LesyaShchutska
png	exclusion_TChipmSlepSnu.pdf_thumb.png	r2 r1	manage	94.1 K	2013-07-14 - 19:37	LesyaShchutska
root	exclusion_TChipmSlepSnu.root	r1	manage	45.5 K	2013-07-18 - 15:30	FedorRatnikov
pdf	exclusion_TSlepSlep.pdf	r2 r1	manage	21.4 K	2013-07-14 - 19:39	LesyaShchutska
png	exclusion_TSlepSlep.pdf_thumb.png	r2 r1	manage	75.4 K	2013-07-14 - 19:39	LesyaShchutska
root	exclusion_TSlepSlep.root	r1	manage	43.7 K	2013-07-18 - 15:25	FedorRatnikov
pdf	fourLeptons_METvsMll.pdf	r1	manage	16.4 K	2013-07-10 - 14:09	LesyaShchutska
png	fourLeptons_METvsMll.pdf_thumb.png	r1	manage	50.6 K	2013-07-10 - 14:09	LesyaShchutska
pdf	fsr_mu3_invmass_19p5ifb_twiki.pdf	r1	manage	19.2 K	2013-07-15 - 09:51	PeterThomassen
png	fsr_mu3_invmass_19p5ifb_twiki.png	r1	manage	90.1 K	2013-07-15 - 09:51	PeterThomassen
pdf	internal_externalconversions.pdf	r1	manage	15.0 K	2013-07-14 - 15:42	LesyaShchutska
png	internal_externalconversions.png	r1	manage	93.3 K	2013-07-14 - 15:42	LesyaShchutska
pdf	limits_summary_table.pdf	r2 r1	manage	178.3 K	2013-07-18 - 01:24	BenHooberman
png	limits_summary_table.png	r2 r1	manage	205.9 K	2013-07-18 - 01:24	BenHooberman
pdf	mc_only_of.pdf	r2 r1	manage	237.2 K	2013-09-25 - 21:07	NicholasEggert
png	mc_only_of.png	r2 r1	manage	87.6 K	2013-09-25 - 21:08	NicholasEggert
pdf	mc_only_sf.pdf	r2 r1	manage	237.7 K	2013-09-25 - 21:07	NicholasEggert
png	mc_only_sf.png	r2 r1	manage	88.5 K	2013-09-25 - 21:09	NicholasEggert
pdf	mjj_targeted_19p5fb.pdf	r1	manage	72.6 K	2013-07-15 - 00:08	BenHooberman
png	mjj_targeted_19p5fb.png	r1	manage	130.2 K	2013-07-15 - 00:08	BenHooberman
pdf	mt_Mll_3l_scatter.pdf	r1	manage	40.1 K	2013-07-10 - 11:04	LesyaShchutska
png	mt_Mll_3l_scatter.pdf_thumb.png	r1	manage	84.9 K	2013-07-10 - 11:04	LesyaShchutska
pdf	mt_Mll_OSemutau_scatter.pdf	r1	manage	18.2 K	2013-07-10 - 11:04	LesyaShchutska
png	mt_Mll_OSemutau_scatter.pdf_thumb.png	r1	manage	71.3 K	2013-07-10 - 11:04	LesyaShchutska
pdf	mt_Mll_SStau_scatter.pdf	r1	manage	15.6 K	2013-07-10 - 11:04	LesyaShchutska
png	mt_Mll_SStau_scatter.pdf_thumb.png	r1	manage	42.7 K	2013-07-10 - 11:04	LesyaShchutska
pdf	mt_Mll_noOSSF_scatter.pdf	r1	manage	14.9 K	2013-07-10 - 11:04	LesyaShchutska
png	mt_Mll_noOSSF_scatter.pdf_thumb.png	r1	manage	39.9 K	2013-07-10 - 11:04	LesyaShchutska
pdf	ossf0tau0.pdf	r1	manage	22.3 K	2013-07-10 - 11:04	LesyaShchutska
png	ossf0tau0.pdf_thumb.png	r1	manage	102.8 K	2013-07-10 - 11:04	LesyaShchutska
pdf	ossf0tau1.pdf	r1	manage	22.0 K	2013-07-10 - 11:05	LesyaShchutska
png	ossf0tau1.pdf_thumb.png	r1	manage	93.3 K	2013-07-10 - 11:05	LesyaShchutska
pdf	ossf0tau1_C2.pdf	r1	manage	22.6 K	2013-07-10 - 11:05	LesyaShchutska
png	ossf0tau1_C2.pdf_thumb.png	r1	manage	112.4 K	2013-07-10 - 11:05	LesyaShchutska
pdf	ossf1tau0.pdf	r1	manage	28.1 K	2013-07-10 - 11:05	LesyaShchutska
png	ossf1tau0.pdf_thumb.png	r1	manage	99.0 K	2013-07-10 - 11:05	LesyaShchutska
pdf	ossf1tau1.pdf	r1	manage	27.4 K	2013-07-10 - 11:05	LesyaShchutska
png	ossf1tau1.pdf_thumb.png	r1	manage	103.6 K	2013-07-10 - 11:05	LesyaShchutska
png	pfmet_reweight_mu_u1.png	r1	manage	10.9 K	2013-07-14 - 15:48	LesyaShchutska
png	pfmet_reweight_mu_u2.png	r1	manage	9.5 K	2013-07-14 - 15:48	LesyaShchutska
png	pfmet_reweight_sigma0_u1.png	r1	manage	9.4 K	2013-07-14 - 15:48	LesyaShchutska
png	pfmet_reweight_sigma0_u2.png	r1	manage	9.3 K	2013-07-14 - 15:48	LesyaShchutska
pdf	toymc_bias_400_100.pdf	r1	manage	10.9 K	2013-07-10 - 19:47	NicholasEggert
png	toymc_bias_400_100.png	r1	manage	35.9 K	2013-07-10 - 19:47	NicholasEggert
pdf	toymc_pull_400_100_10.pdf	r1	manage	7.6 K	2013-07-10 - 19:48	NicholasEggert
png	toymc_pull_400_100_10.png	r1	manage	14.3 K	2013-07-10 - 19:48	NicholasEggert
pdf	zllvjj_validation.pdf	r1	manage	43.9 K	2013-07-14 - 23:44	BenHooberman	Z(ll)V(jj) validation plots
png	zllvjj_validation.png	r1	manage	55.0 K	2013-07-14 - 23:44	BenHooberman	Z(ll)V(jj) validation plots
pdf	zllvjj_validation_table.pdf	r1	manage	138.6 K	2013-07-14 - 23:44	BenHooberman	Z(ll)V(jj) validation plots
png	zllvjj_validation_table.png	r1	manage	267.5 K	2013-07-14 - 23:44	BenHooberman	Z(ll)V(jj) validation plots

Topic revision: r6 - 2014-07-03 - KeithUlmer

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