Search for new physics in events with same-sign dileptons and jets in pp collisions at √s = 8 TeV

Abstract

A search for new physics is performed based on events with jets and a pair of isolated, same-sign leptons. The results are obtained using a sample of proton-proton collision data collected by the CMS experiment at a centre-of-mass energy of 8 TeV at the LHC, corresponding to an integrated luminosity of $19.5~fb^{-1}$. In order to be sensitive to a wide variety of possible signals beyond the standard model, multiple search regions defined by the missing transverse energy, the hadronic energy, the number of jets and b-quark jets, and the transverse momenta of the leptons in the events are considered. No excess above the standard model background expectation is observed and constraints are set on a number of models for new physics, as well as on the same-sign top-quark pair and quadruple-top-quark production cross sections. Information on event selection efficiencies is also provided, so that the results can be used to confront an even broader class of new physics models.

Detailed documentation

The detailed documentation can be found in PAS-SUS-13-013
The publication in JHEP can be found at JHEP 01 (2014) 163 and arXiv:1311.6736

Tables and Plots from SUS-13-013

( click on plot to get .pdf )

Event selection and Monte Carlo simulation

Tables Abbreviated Caption
Table 1: Kinematic requirements on leptons and jets that are used to define the low-pt (high-pt) analysis.

Search strategy

Tables Abbreviated Caption
Table 2: Definition of the baseline signal regions for the three different requirements on $N_{\rm b-jets}$. The same naming scheme is used for both the high- and low-pt analyses which differ only in a looser requirement on $H_{\rm T}$ (in parentheses) for the high-pt analysis.
Table 3: Definition of the signal regions for the high-pt analysis. The low-pt analysis employs a tighter requirement $H_{\rm T} > 250~{\rm GeV}$ and uses the same numbering scheme where the first number in the name represents the requirement on the number of b-tagged jets for that search region, i.e. SR01, SR11, SR21 correspond to SRs with $N_{\rm b-jets}$ 0, 1 and $\ge$ 2 respectively.
Table 4: Signal regions (SR) that are used for the search of same-sign top production and RPV SUSY processes.

Efficiencies and associated uncertainties

Tables Abbreviated Caption
Table 5: Summary of the trigger selection efficiencies for low- and high-pt analyses in each channel. The thresholds on $\eta$ and $p_{\rm T}$ correspond to the trailing lepton of the dilepton pair.
Table 6: Summary of representative systematic uncertainties on the selection efficiency for the considered signal models.

Results

Figures Abbreviated Caption
Figure 1: Distributions of $E_{\rm T}^{\rm miss}$ versus $H_{\rm T}$ in the baseline signal regions BSR0, BSR1 and BSR2 for the low-pt (left) and the high-pt (right) analyses. The regions indicated with the hatched area are not included in the analysis.
Figure 2: Distributions of $E_{\rm T}^{\rm miss}$, $H_{\rm T}$, number of b-tagged jets and number of jets for the events in the low-pt (high-pt) baseline region with no $N_{\rm b-jets}$ requirement (SR0) are shown on the left (right). Also shown as a histogram is the result of the background prediction. The shaded region in the histograms represents the total uncertainty in the background prediction.
Figure 3: Summary plots showing the predicted background from each source and observed event yields as a function of the SRs in the low (high)-pt analysis on left (right).

Tables Abbreviated Caption
Table 7: Predicted and observed yields for the low-, and high-pt signal regions.
Table 8: Predicted and observed yields in the signal regions designed for same-sign top-pair production and RPV SUSY models.

Limits on rare SM processes and models of new physics

Figures and Tables Abbreviated Caption
Figure 4: Diagrams for the six SUSY models considered (A1, A2, B1, B2 and C1, RPV).
Table 9: Summary of the signal regions used for limit setting in each new physics model.

Figures Abbreviated Caption
Figure 5: Exclusion regions at 95% CL in the planes of $m(\tilde{\chi}^{0}_{1})$ vs. $m(\tilde{\rm g})$ (model A1) and $m(\tilde{\rm t}_{1})$ vs. $m(\tilde{\rm g})$ (model A2). The excluded regions are those within the kinematic boundaries and to the left of the curves. The effects of the theoretical uncertainties in the next-to-leading-order plus next-to-leading-log calculations of the production cross sections are indicated by the black-thin curves; the expected limits and their $\pm 1$ standard-deviation variations are also shown in dashed red curves.
  Figure 6: Exclusion regions at 95% CL in the planes of $m(\tilde{\chi}^\pm_1)$ vs. $m(\tilde{\rm b}_1)$ and $m(\tilde{\chi}^{0}_{1})$ vs. $m(\tilde{\rm b}_1)$ (model B1) and $m(\tilde{\rm b}_1)$ vs. $m(\tilde{\rm g})$ (model B2). The convention for the exclusion curves are same as in Fig. 5.
Figure 7: Exclusion regions at 95% CL in the planes of $m(\tilde{\chi}^{0}_{1})$ vs $m(\tilde{\rm g})$ (model C1). The convention for the exclusion curves are same as in Fig. 5.
  Figure 8: 95% CL upper limit on the gluino production cross section for an RPV simplified model, ${\rm pp} \to \tilde{\rm g}\tilde{\rm g}, \tilde{\rm g} \to {\rm tbs} (\bar{{\rm t}}\bar{{\rm b}}\bar{{\rm s}})$.

Electronic version of interpretations and acceptance maps

The root files contain the efficiencies for the signal regions used in the limits for the given model, the cross section limits, and the 6 exclusion contours.
Model Specification Link to the file
A1   ModelA1.root
A2 $\rm{m}_{\chi^{0}_{1}} = 50~\rm{GeV}$ ModelA2.root
B1 $\rm{m}_{\chi^{0}_{1}} = 50~\rm{GeV}$ ModelB1.root
B1 $\rm{m}_{\chi^{0}_{1}}/\rm{m}_{\chi^{\pm}_{1}}=0.5$ ModelB1_x0p5.root
B1 $\rm{m}_{\chi^{0}_{1}}/\rm{m}_{\chi^{\pm}_{1}}=0.8$ ModelB1_x0p8.root
B2 $\rm{m}_{\chi^{0}_{1}} = 50~\rm{GeV}$, $\rm{m}_{\chi^{\pm}_{1}} = 150~\rm{GeV}$ ModelB2_mChi150.root
B2 $\rm{m}_{\chi^{0}_{1}} = 50~\rm{GeV}$, $\rm{m}_{\chi^{\pm}_{1}} = 300~\rm{GeV}$ ModelB2_mChi300.root
C1 $\rm{m}_{\chi^{\pm}_{1}}=0.5\times\rm{m}_{\chi^{0}_{1}} + 0.5\times\rm{m}_{gluino}$ ModelC1_x0p5.root
C1 $\rm{m}_{\chi^{\pm}_{1}}=0.8\times\rm{m}_{\chi^{0}_{1}} + 0.2\times\rm{m}_{gluino}$ ModelC1_x0p8.root

Information for model testing

Figures and Tables Abbreviated Caption
Figure 9: Efficiency for an event to pass a given reconstructed $E_{\rm T}^{\rm miss}~(H_{\rm T})$ threshold as a function of ${E_{\rm T}^{\rm miss}}^{\rm gen}~(H_{\rm T}^{\rm gen})$. The curves are shown for $E_{\rm T}^{\rm miss}$ thresholds of 30, 50, and 120 GeV; the thresholds for $H_{\rm T}$ are 200, 400 GeV. The black curve corresponds to the fit for which the parameters are given in Table 10.
Table 10: The resulting fit parameters for the MET efficiency curves presented in Fig. 9 using the function ${\rm efficiency}\left(x\right) = 0.5\cdot\epsilon_{\infty} \cdot \biggl\{ {\rm erf} \Bigl[\left(x - x_{1/2}\right) / \sigma \Bigr] + 1\biggr\}$ with ${\rm erf}\left(z\right)$ being the error function.
Table 11: The resulting fit parameters for the HT efficiency curves presented in Fig. 9 using the function ${\rm efficiency}\left(x\right) = 0.5\cdot\epsilon_{\infty} \cdot \biggl\{ {\rm erf} \Bigl[\left(x - x_{1/2}\right) / \sigma \Bigr] + 1\biggr\}$ with ${\rm erf}\left(z\right)$ being the error function.
Figure 10: Efficiency to reconstruct a jet with $p_{\rm T} > 40~{\rm GeV}$ as a function of the generator jet $p_{\rm T}$ (left), The same fit function as for $H_{\rm T}$ is used and the fit parameters are $\epsilon_{\infty}=1.0$, $x_{1/2}=34.9$ and $\sigma=14.0$; B-tagging efficiency as a function of the $p_{\rm T}$ of the generator jet matched to a b-quark from the hard collision (right). Black curve corresponds to the fit for which the parameters are presented in Table 11.
Table 12: B-tagging efficiency parameters. A polynomial of form $Ax^{3} + Bx^{2} + Cx + D$ is used for $p_{\rm T} < 120~{\rm GeV}$ while a linear fit, $Ex + F$, is performed above that threshold.
Figure 11: Electron and muon selection efficiency as a function of the lepton $p_{\rm T}$. Black curves corresponds to the fit for which the parameters are presented in Table 13.
Table 13: The resulting fit parameters for the efficiency curves presented in Figure 11 using the function ${\rm efficiency}\left(p_{\rm T}\right) = \epsilon_{\infty} \cdot {\rm erf} \Bigl[\left(p_{\rm T} - 10\right) / \sigma \Bigr] + \epsilon_{10} \cdot \biggl\{ 1 - {\rm erf} \Bigl[\left(p_{\rm T} - 10\right) / \sigma\Bigr] \biggr\}$

Expected background split by categories

Tables Abbreviated Caption
Expected and observed yields for the high-pt signal regions. Uncertainties contain both statistical and systematic components. Machine-readable files are available: predictionsYields_highpt.txt.
Expected and observed yields for the low-pt signal regions. Uncertainties contain both statistical and systematic components. Machine-readable files are available: predictionsYields_lowpt.txt.
Expected and observed yields for the special signal regions. Uncertainties contain both statistical and systematic components. Machine-readable files are available: predictionsYields_highpt.txt.

Additional Material

Tables Abbreviated Caption
Upper limits on the same-sign and four tops production cross-section. The limit on the four tops production cross-section is compared with the $\sigma_{\rm SM} = \left(9.14\pm0.05\right) \times10^{-4}~{\rm pb}$

Figures Abbreviated Caption
  Distributions of $E_{\rm T}^{\rm miss}$, number of b-tagged jets and number of jets for the events in the RPV0 search region are shown. Also shown as a histogram is the result of the background prediction. The shaded region in the histograms represents the total uncertainty in the background prediction.
  Summary plot showing the predicted background from each source and observed event yields as a function of the SRs in the special search regions.
Distributions of the transverse momentum of the leading and trailing leptons in the low-pt (high-pt) baseline region with $N_{\rm b-jets}$ requirement (BSR0) are shown on the left (right).

The most sensitive search regions

Figures Abbreviated Caption
Acceptance of the most sensitive signal region in models A1 and A2 in the planes of $m(\tilde{\chi}^{0}_{1})$ vs. $m(\tilde{\rm g})$ (model A1) and $m(\tilde{\rm t}_{1})$ vs. $m(\tilde{\rm g})$ (model A2). The acceptances are given in percent.
  Acceptance of the most sensitive signal region in model B1 in the plane of $m(\tilde{\chi}^\pm_1)$ vs. $m(\tilde{\rm b}_1)$ and $m(\tilde{\chi}^{0}_{1})$ vs. $m(\tilde{\rm b}_1)$. The acceptances are given in percent.
Acceptance of the most sensitive signal region in model B2 in the plane of $m(\tilde{\rm b}_1)$ vs. $m(\tilde{\rm g})$. The acceptances are given in percent.
Acceptance of the most sensitive signal region in model C1 in the planes of $m(\tilde{\chi}^{0}_{1})$ vs. $m(\tilde{\rm g})$. The acceptances are given in percent.

Analysis cutflow for representative models

Tables Caption
Number of signal events remaining after each stage of the event selection for the model A1 where gluino mass is 925 GeV and an LSP mass is 125 GeV. The results are normalized to an integrated luminosity of 19.5 fb−1 using NLO+NLL calculations. The uncertainties are statistical. The LHE file can be downloaded with this link.
Number of signal events remaining after each stage of the event selection for the model B1 where bottom squark mass is 500 GeV, chargino mass is 200 GeV and an LSP mass is 50 GeV. The results are normalized to an integrated luminosity of 19.5 fb−1 using NLO+NLL calculations. The uncertainties are statistical. The LHE file can be downloaded with this link.
Topic attachments
I Attachment History Action Size Date Who Comment
Unknown file formatgz 8TeV_ModelA1_925_125_small.lhe.gz r1 manage 145615.5 K 2014-08-18 - 14:54 LesyaShchutska  
PDFpdf Figure10_btags.pdf r3 r2 r1 manage 17.1 K 2013-11-27 - 15:56 LesyaShchutska  
PNGpng Figure10_btags.png r3 r2 r1 manage 88.2 K 2013-11-27 - 15:56 LesyaShchutska  
PDFpdf Figure10_jeteff.pdf r3 r2 r1 manage 64.0 K 2013-11-27 - 15:56 LesyaShchutska  
PNGpng Figure10_jeteff.png r3 r2 r1 manage 82.7 K 2013-11-27 - 15:56 LesyaShchutska  
PDFpdf Figure11.pdf r4 r3 r2 r1 manage 64.0 K 2013-11-27 - 15:57 LesyaShchutska  
PNGpng Figure11.png r4 r3 r2 r1 manage 95.9 K 2013-11-27 - 15:57 LesyaShchutska  
PDFpdf Figure1_left.pdf r4 r3 r2 r1 manage 39.9 K 2013-11-27 - 15:49 LesyaShchutska  
PNGpng Figure1_left.png r4 r3 r2 r1 manage 120.9 K 2013-11-27 - 15:49 LesyaShchutska  
PDFpdf Figure1_right.pdf r4 r3 r2 r1 manage 21.8 K 2013-11-27 - 15:49 LesyaShchutska  
PNGpng Figure1_right.png r4 r3 r2 r1 manage 123.0 K 2013-11-27 - 15:49 LesyaShchutska  
PDFpdf Figure2_highPt_histoHT.pdf r3 r2 r1 manage 16.4 K 2013-11-27 - 15:49 LesyaShchutska  
PNGpng Figure2_highPt_histoHT.png r3 r2 r1 manage 128.1 K 2013-11-27 - 15:49 LesyaShchutska  
PDFpdf Figure2_highPt_histoMET.pdf r3 r2 r1 manage 16.0 K 2013-11-27 - 15:49 LesyaShchutska  
PNGpng Figure2_highPt_histoMET.png r3 r2 r1 manage 127.9 K 2013-11-27 - 15:49 LesyaShchutska  
PDFpdf Figure2_highPt_histoNBJ.pdf r3 r2 r1 manage 14.8 K 2013-11-27 - 15:49 LesyaShchutska  
PNGpng Figure2_highPt_histoNBJ.png r3 r2 r1 manage 110.1 K 2013-11-27 - 15:49 LesyaShchutska  
PDFpdf Figure2_highPt_histoNJ.pdf r3 r2 r1 manage 15.1 K 2013-11-27 - 15:50 LesyaShchutska  
PNGpng Figure2_highPt_histoNJ.png r3 r2 r1 manage 112.1 K 2013-11-27 - 15:50 LesyaShchutska  
PDFpdf Figure2_lowPt_histoHT.pdf r3 r2 r1 manage 15.8 K 2013-11-27 - 15:50 LesyaShchutska  
PNGpng Figure2_lowPt_histoHT.png r3 r2 r1 manage 120.4 K 2013-11-27 - 15:50 LesyaShchutska  
PDFpdf Figure2_lowPt_histoMET.pdf r3 r2 r1 manage 15.6 K 2013-11-27 - 15:50 LesyaShchutska  
PNGpng Figure2_lowPt_histoMET.png r2 r1 manage 120.9 K 2013-11-27 - 15:50 LesyaShchutska  
PDFpdf Figure2_lowPt_histoNBJ.pdf r3 r2 r1 manage 15.0 K 2013-11-27 - 15:50 LesyaShchutska  
PNGpng Figure2_lowPt_histoNBJ.png r3 r2 r1 manage 117.0 K 2013-11-27 - 15:50 LesyaShchutska  
PDFpdf Figure2_lowPt_histoNJ.pdf r3 r2 r1 manage 15.1 K 2013-11-27 - 15:50 LesyaShchutska  
PNGpng Figure2_lowPt_histoNJ.png r3 r2 r1 manage 115.2 K 2013-11-27 - 15:50 LesyaShchutska  
PDFpdf Figure3_highptsummary_regions0.pdf r3 r2 r1 manage 14.8 K 2013-11-27 - 15:52 LesyaShchutska  
PNGpng Figure3_highptsummary_regions0.png r3 r2 r1 manage 121.4 K 2013-11-27 - 15:52 LesyaShchutska  
PDFpdf Figure3_highptsummary_regions1.pdf r3 r2 r1 manage 14.7 K 2013-11-27 - 15:52 LesyaShchutska  
PNGpng Figure3_highptsummary_regions1.png r3 r2 r1 manage 115.7 K 2013-11-27 - 15:52 LesyaShchutska  
PDFpdf Figure3_highptsummary_regions2.pdf r3 r2 r1 manage 14.9 K 2013-11-27 - 15:52 LesyaShchutska  
PNGpng Figure3_highptsummary_regions2.png r3 r2 r1 manage 116.5 K 2013-11-27 - 15:52 LesyaShchutska  
PDFpdf Figure3_lowptsummary_regions0.pdf r3 r2 r1 manage 14.8 K 2013-11-27 - 15:52 LesyaShchutska  
PNGpng Figure3_lowptsummary_regions0.png r3 r2 r1 manage 122.1 K 2013-11-27 - 15:52 LesyaShchutska  
PDFpdf Figure3_lowptsummary_regions1.pdf r3 r2 r1 manage 14.7 K 2013-11-27 - 15:52 LesyaShchutska  
PNGpng Figure3_lowptsummary_regions1.png r3 r2 r1 manage 118.3 K 2013-11-27 - 15:52 LesyaShchutska  
PDFpdf Figure3_lowptsummary_regions2.pdf r3 r2 r1 manage 14.9 K 2013-11-27 - 15:53 LesyaShchutska  
PNGpng Figure3_lowptsummary_regions2.png r3 r2 r1 manage 120.0 K 2013-11-27 - 15:53 LesyaShchutska  
PDFpdf Figure4_A1.pdf r1 manage 11.0 K 2013-07-09 - 19:55 LesyaShchutska  
PNGpng Figure4_A1.png r1 manage 23.4 K 2013-07-09 - 19:55 LesyaShchutska  
PDFpdf Figure4_A2.pdf r1 manage 11.5 K 2013-07-09 - 19:55 LesyaShchutska  
PNGpng Figure4_A2.png r1 manage 23.4 K 2013-07-09 - 19:55 LesyaShchutska  
PDFpdf Figure4_B1.pdf r2 r1 manage 13.2 K 2013-11-27 - 17:03 LesyaShchutska  
PNGpng Figure4_B1.png r2 r1 manage 22.3 K 2013-11-27 - 17:03 LesyaShchutska  
PDFpdf Figure4_B2.pdf r1 manage 13.6 K 2013-07-09 - 19:55 LesyaShchutska  
PNGpng Figure4_B2.png r1 manage 26.5 K 2013-07-09 - 19:55 LesyaShchutska  
PDFpdf Figure4_C1.pdf r1 manage 15.6 K 2013-07-09 - 19:55 LesyaShchutska  
PNGpng Figure4_C1.png r1 manage 24.8 K 2013-07-09 - 19:55 LesyaShchutska  
PDFpdf Figure4_RPV.pdf r1 manage 8.6 K 2013-07-09 - 19:56 LesyaShchutska  
PNGpng Figure4_RPV.png r1 manage 23.3 K 2013-07-09 - 19:56 LesyaShchutska  
PDFpdf Figure5_A1.pdf r3 r2 r1 manage 25.0 K 2013-11-27 - 15:53 LesyaShchutska  
PNGpng Figure5_A1.png r3 r2 r1 manage 201.0 K 2013-11-27 - 15:53 LesyaShchutska  
PDFpdf Figure5_A2.pdf r3 r2 r1 manage 22.2 K 2013-11-27 - 15:53 LesyaShchutska  
PNGpng Figure5_A2.png r3 r2 r1 manage 204.1 K 2013-11-27 - 15:53 LesyaShchutska  
PDFpdf Figure6_B1a.pdf r3 r2 r1 manage 21.8 K 2013-11-27 - 15:53 LesyaShchutska  
PNGpng Figure6_B1a.png r3 r2 r1 manage 191.9 K 2013-11-27 - 15:53 LesyaShchutska  
PDFpdf Figure6_B1b.pdf r3 r2 r1 manage 20.2 K 2013-11-27 - 15:53 LesyaShchutska  
PNGpng Figure6_B1b.png r3 r2 r1 manage 191.2 K 2013-11-27 - 15:53 LesyaShchutska  
PDFpdf Figure6_B1c.pdf r2 r1 manage 21.0 K 2013-11-27 - 15:55 LesyaShchutska  
PNGpng Figure6_B1c.png r3 r2 r1 manage 200.5 K 2013-11-27 - 15:55 LesyaShchutska  
PDFpdf Figure6_B2a.pdf r3 r2 r1 manage 20.5 K 2013-11-27 - 15:55 LesyaShchutska  
PNGpng Figure6_B2a.png r3 r2 r1 manage 200.3 K 2013-11-27 - 15:55 LesyaShchutska  
PDFpdf Figure6_B2b.pdf r3 r2 r1 manage 20.1 K 2013-11-27 - 15:55 LesyaShchutska  
PNGpng Figure6_B2b.png r3 r2 r1 manage 205.5 K 2013-11-27 - 15:55 LesyaShchutska  
PDFpdf Figure7_C1a.pdf r2 r1 manage 26.1 K 2013-11-27 - 15:55 LesyaShchutska  
PNGpng Figure7_C1a.png r2 r1 manage 209.1 K 2013-11-27 - 15:55 LesyaShchutska  
PDFpdf Figure7_C1b.pdf r4 r3 r2 r1 manage 20.6 K 2013-11-27 - 15:55 LesyaShchutska  
PNGpng Figure7_C1b.png r4 r3 r2 r1 manage 196.4 K 2013-11-27 - 15:55 LesyaShchutska  
PDFpdf Figure8.pdf r3 r2 r1 manage 19.1 K 2013-11-27 - 15:56 LesyaShchutska  
PNGpng Figure8.png r3 r2 r1 manage 181.9 K 2013-11-27 - 15:56 LesyaShchutska  
PDFpdf Figure9_ht.pdf r3 r2 r1 manage 24.9 K 2013-11-27 - 15:56 LesyaShchutska  
PNGpng Figure9_ht.png r4 r3 r2 r1 manage 164.6 K 2013-11-27 - 15:56 LesyaShchutska  
PDFpdf Figure9_met.pdf r3 r2 r1 manage 18.5 K 2013-11-27 - 15:56 LesyaShchutska  
PNGpng Figure9_met.png r4 r3 r2 r1 manage 140.4 K 2013-11-27 - 15:56 LesyaShchutska  
Unknown file formatroot ModelA1.root r3 r2 r1 manage 150.0 K 2013-11-28 - 20:08 NikolozSkhirtladze  
Unknown file formatroot ModelA2.root r3 r2 r1 manage 108.2 K 2013-11-28 - 20:08 NikolozSkhirtladze  
Unknown file formatroot ModelB1.root r3 r2 r1 manage 158.7 K 2013-11-28 - 20:08 NikolozSkhirtladze  
Unknown file formatroot ModelB1_x0p5.root r3 r2 r1 manage 157.2 K 2013-11-28 - 20:08 NikolozSkhirtladze  
Unknown file formatroot ModelB1_x0p8.root r3 r2 r1 manage 169.3 K 2013-11-28 - 20:08 NikolozSkhirtladze  
Unknown file formatroot ModelB2_mChi150.root r3 r2 r1 manage 85.4 K 2013-11-28 - 20:08 NikolozSkhirtladze  
Unknown file formatroot ModelB2_mChi300.root r3 r2 r1 manage 83.9 K 2013-11-28 - 20:08 NikolozSkhirtladze  
Unknown file formatroot ModelC1_x0p5.root r4 r3 r2 r1 manage 84.5 K 2013-11-28 - 20:08 NikolozSkhirtladze  
Unknown file formatroot ModelC1_x0p8.root r4 r3 r2 r1 manage 154.6 K 2013-11-28 - 20:05 NikolozSkhirtladze  
PDFpdf T1tttt_925_125.pdf r2 r1 manage 86.5 K 2014-08-18 - 11:45 LesyaShchutska  
PNGpng T1tttt_925_125.png r1 manage 232.8 K 2014-08-18 - 11:45 LesyaShchutska  
PDFpdf T1tttt_mostSensitive.pdf r1 manage 43.0 K 2013-07-13 - 22:26 MarcDunser  
PNGpng T1tttt_mostSensitive.png r1 manage 121.9 K 2013-07-13 - 22:36 MarcDunser  
PDFpdf T5VV_mostSensitive.pdf r1 manage 32.0 K 2013-07-13 - 22:26 MarcDunser  
PNGpng T5VV_mostSensitive.png r1 manage 120.7 K 2013-07-13 - 22:35 MarcDunser  
PDFpdf T5lnu_mostSensitive.pdf r1 manage 42.1 K 2013-07-13 - 22:26 MarcDunser  
PNGpng T5lnu_mostSensitive.png r1 manage 127.2 K 2013-07-13 - 22:36 MarcDunser  
PDFpdf T5tttt_mostSensitive.pdf r1 manage 35.1 K 2013-07-13 - 22:26 MarcDunser  
PNGpng T5tttt_mostSensitive.png r1 manage 125.6 K 2013-07-13 - 22:35 MarcDunser  
PDFpdf T6ttWW_500_200.pdf r2 r1 manage 88.5 K 2014-08-18 - 11:45 LesyaShchutska  
PNGpng T6ttWW_500_200.png r1 manage 327.0 K 2014-08-18 - 11:45 LesyaShchutska  
PDFpdf T6ttWW_mostSensitive.pdf r1 manage 32.8 K 2013-07-13 - 22:26 MarcDunser  
PNGpng T6ttWW_mostSensitive.png r1 manage 126.7 K 2013-07-13 - 22:35 MarcDunser  
PDFpdf T6ttWWx05_mostSensitive.pdf r1 manage 31.7 K 2013-07-13 - 22:26 MarcDunser  
PNGpng T6ttWWx05_mostSensitive.png r1 manage 113.2 K 2013-07-13 - 22:35 MarcDunser  
PDFpdf T6ttWWx08_mostSensitive.pdf r1 manage 32.5 K 2013-07-13 - 22:26 MarcDunser  
PNGpng T6ttWWx08_mostSensitive.png r1 manage 111.2 K 2013-07-13 - 22:35 MarcDunser  
PDFpdf T7btWmChi150_mostSensitive.pdf r1 manage 32.4 K 2013-07-13 - 22:26 MarcDunser  
PNGpng T7btWmChi150_mostSensitive.png r1 manage 117.4 K 2013-07-13 - 22:35 MarcDunser  
PDFpdf T7btWmChi300_mostSensitive.pdf r1 manage 32.0 K 2013-07-13 - 22:26 MarcDunser  
PNGpng T7btWmChi300_mostSensitive.png r1 manage 115.9 K 2013-07-13 - 22:35 MarcDunser  
PDFpdf Table1.pdf r2 r1 manage 66.8 K 2013-11-27 - 16:38 LesyaShchutska  
PNGpng Table1.png r2 r1 manage 104.7 K 2013-11-27 - 16:38 LesyaShchutska  
PDFpdf Table10.pdf r5 r4 r3 r2 r1 manage 75.5 K 2013-11-27 - 16:38 LesyaShchutska  
PNGpng Table10.png r5 r4 r3 r2 r1 manage 100.2 K 2013-11-27 - 16:38 LesyaShchutska  
PDFpdf Table11.pdf r5 r4 r3 r2 r1 manage 75.8 K 2013-11-27 - 16:38 LesyaShchutska  
PNGpng Table11.png r5 r4 r3 r2 r1 manage 106.7 K 2013-11-27 - 16:38 LesyaShchutska  
PDFpdf Table12.pdf r3 r2 r1 manage 65.2 K 2013-11-27 - 16:38 LesyaShchutska  
PNGpng Table12.png r3 r2 r1 manage 92.3 K 2013-11-27 - 16:38 LesyaShchutska  
PDFpdf Table13.pdf r7 r6 r5 r4 r3 manage 47.9 K 2014-10-10 - 10:54 DidarDobur  
PNGpng Table13.png r8 r7 r6 r5 r4 manage 59.8 K 2014-10-10 - 11:13 DidarDobur  
PDFpdf Table14.pdf r1 manage 66.3 K 2013-11-27 - 23:48 LesyaShchutska  
PNGpng Table14.png r1 manage 163.1 K 2013-11-27 - 23:48 LesyaShchutska  
PDFpdf Table2.pdf r1 manage 51.9 K 2013-07-09 - 18:47 LesyaShchutska  
PNGpng Table2.png r1 manage 122.9 K 2013-07-09 - 18:47 LesyaShchutska  
PDFpdf Table3.pdf r1 manage 61.4 K 2013-07-09 - 18:47 LesyaShchutska  
PNGpng Table3.png r1 manage 251.1 K 2013-07-09 - 18:47 LesyaShchutska  
PDFpdf Table4.pdf r1 manage 55.5 K 2013-07-09 - 18:47 LesyaShchutska  
PNGpng Table4.png r1 manage 164.9 K 2013-07-09 - 18:47 LesyaShchutska  
PDFpdf Table5.pdf r2 r1 manage 60.5 K 2013-11-27 - 16:38 LesyaShchutska  
PNGpng Table5.png r2 r1 manage 113.9 K 2013-11-27 - 16:38 LesyaShchutska  
PDFpdf Table6.pdf r3 r2 r1 manage 49.1 K 2013-11-27 - 16:38 LesyaShchutska  
PNGpng Table6.png r3 r2 r1 manage 172.1 K 2013-11-27 - 16:38 LesyaShchutska  
PDFpdf Table7.pdf r3 r2 r1 manage 61.9 K 2013-11-27 - 16:38 LesyaShchutska  
PNGpng Table7.png r3 r2 r1 manage 475.6 K 2013-11-27 - 16:38 LesyaShchutska  
PDFpdf Table8.pdf r1 manage 34.0 K 2013-07-09 - 19:42 LesyaShchutska  
PNGpng Table8.png r1 manage 109.0 K 2013-07-09 - 19:42 LesyaShchutska  
PDFpdf Table9.pdf r2 r1 manage 94.7 K 2013-11-27 - 16:38 LesyaShchutska  
PNGpng Table9.png r2 r1 manage 373.3 K 2013-11-27 - 16:38 LesyaShchutska  
PDFpdf Table_high-pt_split.pdf r1 manage 66.4 K 2013-11-27 - 23:55 LesyaShchutska  
PNGpng Table_high-pt_split.png r1 manage 605.2 K 2013-11-27 - 23:55 LesyaShchutska  
PDFpdf Table_low-pt_split.pdf r1 manage 66.5 K 2013-11-27 - 23:55 LesyaShchutska  
PNGpng Table_low-pt_split.png r1 manage 601.8 K 2013-11-27 - 23:55 LesyaShchutska  
PDFpdf Table_special_split.pdf r1 manage 48.4 K 2013-11-27 - 23:55 LesyaShchutska  
PNGpng Table_special_split.png r1 manage 204.4 K 2013-11-27 - 23:55 LesyaShchutska  
PDFpdf highptsummary_regions3.pdf r1 manage 29.6 K 2013-11-27 - 23:40 LesyaShchutska  
PNGpng highptsummary_regions3.png r1 manage 111.7 K 2013-11-27 - 23:40 LesyaShchutska  
PDFpdf kin_highPt_histoPT1.pdf r2 r1 manage 17.1 K 2013-11-27 - 16:50 LesyaShchutska  
PNGpng kin_highPt_histoPT1.png r2 r1 manage 135.0 K 2013-11-27 - 16:50 LesyaShchutska  
PDFpdf kin_highPt_histoPT2.pdf r2 r1 manage 16.0 K 2013-11-27 - 16:50 LesyaShchutska  
PNGpng kin_highPt_histoPT2.png r2 r1 manage 121.8 K 2013-11-27 - 16:50 LesyaShchutska  
PDFpdf kin_lowPt_histoPT1.pdf r2 r1 manage 17.3 K 2013-11-27 - 16:50 LesyaShchutska  
PNGpng kin_lowPt_histoPT1.png r2 r1 manage 142.1 K 2013-11-27 - 16:50 LesyaShchutska  
PDFpdf kin_lowPt_histoPT2.pdf r2 r1 manage 16.2 K 2013-11-27 - 16:50 LesyaShchutska  
PNGpng kin_lowPt_histoPT2.png r2 r1 manage 128.0 K 2013-11-27 - 16:50 LesyaShchutska  
Texttxt predictionsYields_highpt.txt r1 manage 1.8 K 2013-11-28 - 18:10 LesyaShchutska  
Texttxt predictionsYields_lowpt.txt r1 manage 1.5 K 2013-11-28 - 18:10 LesyaShchutska  
PDFpdf rpv0_highPt_histoMET.pdf r4 r3 r2 r1 manage 15.6 K 2013-11-27 - 16:59 LesyaShchutska  
PNGpng rpv0_highPt_histoMET.png r4 r3 r2 r1 manage 118.5 K 2013-11-27 - 16:59 LesyaShchutska  
PDFpdf rpv0_highPt_histoNBJ.pdf r4 r3 r2 r1 manage 14.5 K 2013-11-27 - 16:59 LesyaShchutska  
PNGpng rpv0_highPt_histoNBJ.png r4 r3 r2 r1 manage 106.0 K 2013-11-27 - 16:59 LesyaShchutska  
PDFpdf rpv0_highPt_histoNJ.pdf r4 r3 r2 r1 manage 15.1 K 2013-11-27 - 16:59 LesyaShchutska  
PNGpng rpv0_highPt_histoNJ.png r4 r3 r2 r1 manage 113.4 K 2013-11-27 - 16:59 LesyaShchutska  
Edit | Attach | Watch | Print version | History: r15 < r14 < r13 < r12 < r11 | Backlinks | Raw View | WYSIWYG | More topic actions
Topic revision: r15 - 2014-10-10 - DidarDobur
 
    • Cern Search Icon Cern Search
    • TWiki Search Icon TWiki Search
    • Google Search Icon Google Search

    CMSPublic All webs login

This site is powered by the TWiki collaboration platform Powered by PerlCopyright & 2008-2019 by the contributing authors. All material on this collaboration platform is the property of the contributing authors.
Ideas, requests, problems regarding TWiki? Send feedback