Search for electroweak production of supersymmetric particles in final states with two or three leptons at $\sqrt{s}=13\,$TeV with the ATLAS detector

The ATLAS collaboration
No Journal Information, 2018

Abstract (data abstract)
No description provided.

  • Table 1

    Data from Fig4 a (Fig4 a)

    10.17182/hepdata.81996.v1/t1

    The mll distribution for data and the estimated SM backgrounds in the 2l+0jets channel for SR2-SF-loose. Two signal points are...

  • Table 2

    Data from Fig4 b (Fig4 b)

    10.17182/hepdata.81996.v1/t2

    The mT2 distribution for data and the estimated SM backgrounds in the 2l+0jets channel for SR2-SF-loose. Two signal points are...

  • Table 3

    Data from Fig4 c (Fig4 c)

    10.17182/hepdata.81996.v1/t3

    The mT2 distributions for data and the estimated SM backgrounds in the 2l+0jets channel for the SR2-DF-100 selection. Two signal...

  • Table 4

    Data from Fig5 a (Fig5 a)

    10.17182/hepdata.81996.v1/t4

    Distributions of ETmiss for data and the expected SM backgrounds in the 2l+jets channel for SR2-int/high, without the final ETmiss...

  • Table 5

    Data from Fig5 b (Fig5 b)

    10.17182/hepdata.81996.v1/t5

    Distributions of ETmiss for data and the expected SM backgrounds in the 2l+jets channel for SR2-low, without the final ETmiss...

  • Table 6

    Data from Fig6 a (Fig6 a)

    10.17182/hepdata.81996.v1/t6

    Distributions of ETmiss for data and the estimated SM backgrounds in the 3l channel for SR3-slep-a. Two signal points are...

  • Table 7

    Data from Fig6 b (Fig6 b)

    10.17182/hepdata.81996.v1/t7

    Distributions of ETmiss for data and the estimated SM backgrounds in the 3l channel for SR3-slep-b. Two signal points are...

  • Table 8

    Data from Fig6 c (Fig6 c)

    10.17182/hepdata.81996.v1/t8

    Distributions of the third leading lepton pT in SR3-slep-c,d,e. Two signal points are added for comparison.

  • Table 9

    Data from Fig7 a (Fig7 a)

    10.17182/hepdata.81996.v1/t9

    Distributions of ETmiss for data and the estimated SM backgrounds in the 3l channel for SR3-WZ-0Ja,b,c. Two signal points are...

  • Table 10

    Data from Fig7 b (Fig7 b)

    10.17182/hepdata.81996.v1/t10

    Distributions of ETmiss for data and the estimated SM backgrounds in the 3l channel for SR3-WZ-1Ja. Two signal points are...

  • Table 11

    Data from Fig7 c (Fig7 c)

    10.17182/hepdata.81996.v1/t11

    Distributions of ETmiss for data and the estimated SM backgrounds in the 3l channel for SR3-WZ-1Jb. Two signal points are...

  • Table 12

    Data from Fig7 d (Fig7 d)

    10.17182/hepdata.81996.v1/t12

    Distributions of ETmiss for data and the estimated SM backgrounds in the 3l channel for SR3-WZ-1Jc. Two signal points are...

  • Table 13

    Data from Fig8 a (Fig8 a)

    10.17182/hepdata.81996.v1/t13

    Expected 95% CL exclusion limit for chargino-pair production.

  • Table 14

    Data from Fig8 a (Fig8 a)

    10.17182/hepdata.81996.v1/t14

    Observed 95% CL exclusion limit for chargino-pair production.

  • Table 15

    Data from Fig8 b (Fig8 b)

    10.17182/hepdata.81996.v1/t15

    Expected 95% CL exclusion limit for direct slepton production.

  • Table 16

    Data from Fig8 b (Fig8 b)

    10.17182/hepdata.81996.v1/t16

    Observed 95% CL exclusion limit for direct slepton production.

  • Table 17

    Data from Fig8 c (Fig8 c)

    10.17182/hepdata.81996.v1/t17

    Expected 95% CL exclusion limit for chargino-neutralino production with slepton-mediated decays.

  • Table 18

    Data from Fig8 c (Fig8 c)

    10.17182/hepdata.81996.v1/t18

    Observed 95% CL exclusion limit for chargino-neutralino production with slepton-mediated decays.

  • Table 19

    Data from Fig8 d (Fig8 d)

    10.17182/hepdata.81996.v1/t19

    Expected 95% CL exclusion limit for chargino-neutralino production with W/Z-mediated decays.

  • Table 20

    Data from Fig8 d (Fig8 d)

    10.17182/hepdata.81996.v1/t20

    Observed 95% CL exclusion limit for chargino-neutralino production with W/Z-mediated decays.

  • Table 21

    Data from aux. Fig3 a (aux. Fig3 a)

    10.17182/hepdata.81996.v1/t21

    The mT2 distributions for data and the estimated SM backgrounds in the exclusive SF signal regions of the 2l+0jets channel...

  • Table 22

    Data from aux. Fig3 b (aux. Fig3 b)

    10.17182/hepdata.81996.v1/t22

    The mT2 distributions for data and the estimated SM backgrounds in the exclusive SF signal regions of the 2l+0jets channel...

  • Table 23

    Data from aux. Fig3 c (aux. Fig3 c)

    10.17182/hepdata.81996.v1/t23

    The mT2 distributions for data and the estimated SM backgrounds in the exclusive SF signal regions of the 2l+0jets channel...

  • Table 24

    Data from aux. Fig3 d (aux. Fig3 d)

    10.17182/hepdata.81996.v1/t24

    The mT2 distributions for data and the estimated SM backgrounds in the exclusive SF signal regions of the 2l+0jets channel...

  • Table 25

    Data from SFloose_C1C1 (aux. Fig14 a)

    10.17182/hepdata.81996.v1/t25

    Signal acceptance for C1C1 production in SR2-SFloose for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_1^\mp$ -> 2x $\ell \nu \widetilde{\chi}_1^0$...

  • Table 26

    Data from SFloose_C1C1 (aux. Fig14 b)

    10.17182/hepdata.81996.v1/t26

    Signal efficiency for C1C1 production in SR2-SFloose for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_1^\mp$ -> 2x $\ell \nu \widetilde{\chi}_1^0$.

  • Table 27

    Data from SFtight_C1C1 (aux. Fig14 c)

    10.17182/hepdata.81996.v1/t27

    Signal acceptance for C1C1 production in SR2-SFtight for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_1^\mp$ -> 2x $\ell \nu \widetilde{\chi}_1^0$.

  • Table 28

    Data from SFtight_C1C1 (aux. Fig14 d)

    10.17182/hepdata.81996.v1/t28

    Signal efficiency for C1C1 production in SR2-SFtight for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_1^\mp$ -> 2x $\ell \nu \widetilde{\chi}_1^0$.

  • Table 29

    Data from DF100_C1C1 (aux. Fig15 a)

    10.17182/hepdata.81996.v1/t29

    Signal acceptance for C1C1 production in SR2-DF100 for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_1^\mp$ -> 2x $\ell \nu \widetilde{\chi}_1^0$.

  • Table 30

    Data from DF100_C1C1 (aux. Fig15 b)

    10.17182/hepdata.81996.v1/t30

    Signal efficiency for C1C1 production in SR2-DF100 for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_1^\mp$ -> 2x $\ell \nu \widetilde{\chi}_1^0$.

  • Table 31

    Data from DF150_C1C1 (aux. Fig15 c)

    10.17182/hepdata.81996.v1/t31

    Signal acceptance for C1C1 production in SR2-DF150 for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_1^\mp$ -> 2x $\ell \nu \widetilde{\chi}_1^0$.

  • Table 32

    Data from DF150_C1C1 (aux. Fig15 d)

    10.17182/hepdata.81996.v1/t32

    Signal efficiency for C1C1 production in SR2-DF150 for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_1^\mp$ -> 2x $\ell \nu \widetilde{\chi}_1^0$.

  • Table 33

    Data from DF200_C1C1 (aux. Fig16 a)

    10.17182/hepdata.81996.v1/t33

    Signal acceptance for C1C1 production in SR2-DF200 for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_1^\mp$ -> 2x $\ell \nu \widetilde{\chi}_1^0$.

  • Table 34

    Data from DF200_C1C1 (aux. Fig16 b)

    10.17182/hepdata.81996.v1/t34

    Signal efficiency for C1C1 production in SR2-DF200 for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_1^\mp$ -> 2x $\ell \nu \widetilde{\chi}_1^0$.

  • Table 35

    Data from DF300_C1C1 (aux. Fig16 c)

    10.17182/hepdata.81996.v1/t35

    Signal acceptance for C1C1 production in SR2-DF300 for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_1^\mp$ -> 2x $\ell \nu \widetilde{\chi}_1^0$.

  • Table 36

    Data from DF300_C1C1 (aux.Fig16 d)

    10.17182/hepdata.81996.v1/t36

    Signal efficiency for C1C1 production in SR2-DF300 for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_1^\mp$ -> 2x $\ell \nu \widetilde{\chi}_1^0$.

  • Table 37

    Data from SF-loose_slepton (aux. Fig22 a)

    10.17182/hepdata.81996.v1/t37

    Signal acceptance for direct Slepton production in SR2-SF-Loose for the process P P -> $\tilde{\ell}^\pm \tilde{\ell}^\mp$ -> $\ell^\pm \ell^\mp \widetilde{\chi}_1^0...

  • Table 38

    Data from SF-loose_slepton (aux. Fig22 b)

    10.17182/hepdata.81996.v1/t38

    Signal efficiency for direct Slepton production in SR2-SF-Loose for the process P P -> $\tilde{\ell}^\pm \tilde{\ell}^\mp$ -> $\ell^\pm \ell^\mp \widetilde{\chi}_1^0...

  • Table 39

    Data from SF-tight_slepton (aux. Fig22 c)

    10.17182/hepdata.81996.v1/t39

    Signal acceptance for direct Slepton production in SR2-SF-Tight for the process P P -> $\tilde{\ell}^\pm \tilde{\ell}^\mp$ -> $\ell^\pm \ell^\mp \widetilde{\chi}_1^0...

  • Table 40

    Data from SF-tight_slepton (aux. Fig22 d)

    10.17182/hepdata.81996.v1/t40

    Signal efficiency for direct Slepton production in SR2-SF-Tight for the process P P -> $\tilde{\ell}^\pm \tilde{\ell}^\mp$ -> $\ell^\pm \ell^\mp \widetilde{\chi}_1^0...

  • Table 41

    Data from WZ2L2J_SRlow (aux. Fig23 a)

    10.17182/hepdata.81996.v1/t41

    Signal acceptance for C1N2 production in SR2-low for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_2^0$ -> $W$(->2j) $Z$(->2l) $\widetilde{\chi}_1^0 \widetilde{\chi}_1^0$.

  • Table 42

    Data from WZ2L2J_SRlow (aux. Fig23 b)

    10.17182/hepdata.81996.v1/t42

    Signal efficiency for C1N2 production in SR2-low for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_2^0$ -> $W$(->2j) $Z$(->2l) $\widetilde{\chi}_1^0 \widetilde{\chi}_1^0$.

  • Table 43

    Data from WZ2L2J_SRint (aux. Fig23 c)

    10.17182/hepdata.81996.v1/t43

    Signal acceptance for C1N2 production in SR2-int for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_2^0$ -> $W$(->2j) $Z$(->2l) $\widetilde{\chi}_1^0 \widetilde{\chi}_1^0$.

  • Table 44

    Data from WZ2L2J_SRint (aux. Fig23 d)

    10.17182/hepdata.81996.v1/t44

    Signal efficiency for C1N2 production in SR2-int for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_2^0$ -> $W$(->2j) $Z$(->2l) $\widetilde{\chi}_1^0 \widetilde{\chi}_1^0$.

  • Table 45

    Data from WZ2L2J_SRhigh (aux. Fig23 e)

    10.17182/hepdata.81996.v1/t45

    Signal acceptance for C1N2 production in SR2-high for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_2^0$ -> $W$(->2j) $Z$(->2l) $\widetilde{\chi}_1^0 \widetilde{\chi}_1^0$.

  • Table 46

    Data from WZ2L2J_SRhigh (aux. Fig23 f)

    10.17182/hepdata.81996.v1/t46

    Signal efficiency for C1N2 production in SR2-high for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_2^0$ -> $W$(->2j) $Z$(->2l) $\widetilde{\chi}_1^0 \widetilde{\chi}_1^0$.

  • Table 47

    Data from slepa_Slep (aux. Fig24 a)

    10.17182/hepdata.81996.v1/t47

    Signal acceptance for Slep production in SR3-slepa for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_2^0$ -> $\tilde{\ell}_L \tilde{\ell}_L l (\tilde{\nu}\nu),...

  • Table 48

    Data from slepa_Slep (aux. Fig24 b)

    10.17182/hepdata.81996.v1/t48

    Signal efficiency for Slep production in SR3-slepa for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_2^0$ -> $\tilde{\ell}_L \tilde{\ell}_L l (\tilde{\nu}\nu),...

  • Table 49

    Data from slepb_Slep (aux. Fig24 c)

    10.17182/hepdata.81996.v1/t49

    Signal acceptance for Slep production in SR3-slepb for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_2^0$ -> $\tilde{\ell}_L \tilde{\ell}_L l (\tilde{\nu}\nu),...

  • Table 50

    Data from slepb_Slep (aux. Fig24 d)

    10.17182/hepdata.81996.v1/t50

    Signal efficiency for Slep production in SR3-slepb for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_2^0$ -> $\tilde{\ell}_L \tilde{\ell}_L l (\tilde{\nu}\nu),...

  • Table 51

    Data from slepc_Slep (aux. Fig24 e)

    10.17182/hepdata.81996.v1/t51

    Signal acceptance for Slep production in SR3-slepc for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_2^0$ -> $\tilde{\ell}_L \tilde{\ell}_L l (\tilde{\nu}\nu),...

  • Table 52

    Data from slepc_Slep (aux. Fig24 f)

    10.17182/hepdata.81996.v1/t52

    Signal efficiency for Slep production in SR3-slepc for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_2^0$ -> $\tilde{\ell}_L \tilde{\ell}_L l (\tilde{\nu}\nu),...

  • Table 53

    Data from slepd_Slep (aux. Fig25 a)

    10.17182/hepdata.81996.v1/t53

    Signal acceptance for Slep production in SR3-slepd for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_2^0$ -> $\tilde{\ell}_L \tilde{\ell}_L l (\tilde{\nu}\nu),...

  • Table 54

    Data from slepd_Slep (aux. Fig25 b)

    10.17182/hepdata.81996.v1/t54

    Signal efficiency for Slep production in SR3-slepd for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_2^0$ -> $\tilde{\ell}_L \tilde{\ell}_L l (\tilde{\nu}\nu),...

  • Table 55

    Data from slepe_Slep (aux. Fig25 c)

    10.17182/hepdata.81996.v1/t55

    Signal acceptance for Slep production in SR3-slepe for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_2^0$ -> $\tilde{\ell}_L \tilde{\ell}_L l (\tilde{\nu}\nu),...

  • Table 56

    Data from slepe_Slep (aux. Fig25 d)

    10.17182/hepdata.81996.v1/t56

    Signal efficiency for Slep production in SR3-slepe for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_2^0$ -> $\tilde{\ell}_L \tilde{\ell}_L l (\tilde{\nu}\nu),...

  • Table 57

    Data from WZ0Ja_WZ (aux. Fig26 a)

    10.17182/hepdata.81996.v1/t57

    Signal acceptance for WZ production in SR3-WZ-0Ja for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_2^0$ -> $W$(->l $\nu$) $Z$(->2l) $\widetilde{\chi}_1^0...

  • Table 58

    Data from WZ0Ja_WZ (aux. Fig26 b)

    10.17182/hepdata.81996.v1/t58

    Signal efficiency for WZ production in SR3-WZ-0Ja for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_2^0$ -> $W$(->l $\nu$) $Z$(->2l) $\widetilde{\chi}_1^0...

  • Table 59

    Data from WZ0Jb_WZ (aux. Fig26 c)

    10.17182/hepdata.81996.v1/t59

    Signal acceptance for WZ production in SR3-WZ-0Jb for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_2^0$ -> $W$(->l $\nu$) $Z$(->2l) $\widetilde{\chi}_1^0...

  • Table 60

    Data from WZ0Jb_WZ (aux. Fig26 d)

    10.17182/hepdata.81996.v1/t60

    Signal efficiency for WZ production in SR3-WZ-0Jb for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_2^0$ -> $W$(->l $\nu$) $Z$(->2l) $\widetilde{\chi}_1^0...

  • Table 61

    Data from WZ0Jc_WZ (aux. Fig26 e)

    10.17182/hepdata.81996.v1/t61

    Signal acceptance for WZ production in SR3-WZ-0Jc for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_2^0$ -> $W$(->l $\nu$) $Z$(->2l) $\widetilde{\chi}_1^0...

  • Table 62

    Data from WZ0Jc_WZ (aux. Fig26 f)

    10.17182/hepdata.81996.v1/t62

    Signal efficiency for WZ production in SR3-WZ-0Jc for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_2^0$ -> $W$(->l $\nu$) $Z$(->2l) $\widetilde{\chi}_1^0...

  • Table 63

    Data from WZ1Ja_WZ (aux. Fig27 a)

    10.17182/hepdata.81996.v1/t63

    Signal acceptance for WZ production in SR3-WZ-1Ja for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_2^0$ -> $W$(->l $\nu$) $Z$(->2l) $\widetilde{\chi}_1^0...

  • Table 64

    Data from WZ1Ja_WZ (aux. Fig27 b)

    10.17182/hepdata.81996.v1/t64

    Signal efficiency for WZ production in SR3-WZ-1Ja for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_2^0$ -> $W$(->l $\nu$) $Z$(->2l) $\widetilde{\chi}_1^0...

  • Table 65

    Data from WZ1Jb_WZ (aux. Fig27 c)

    10.17182/hepdata.81996.v1/t65

    Signal acceptance for WZ production in SR3-WZ-1Jb for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_2^0$ -> $W$(->l $\nu$) $Z$(->2l) $\widetilde{\chi}_1^0...

  • Table 66

    Data from WZ1Jb_WZ (aux. Fig27 d)

    10.17182/hepdata.81996.v1/t66

    Signal efficiency for WZ production in SR3-WZ-1Jb for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_2^0$ -> $W$(->l $\nu$) $Z$(->2l) $\widetilde{\chi}_1^0...

  • Table 67

    Data from WZ1Jc_WZ (aux. Fig27 e)

    10.17182/hepdata.81996.v1/t67

    Signal acceptance for WZ production in SR3-WZ-1Jc for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_2^0$ -> $W$(->l $\nu$) $Z$(->2l) $\widetilde{\chi}_1^0...

  • Table 68

    Data from WZ1Jc_WZ (aux. Fig27 f)

    10.17182/hepdata.81996.v1/t68

    Signal efficiency for WZ production in SR3-WZ-1Jc for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_2^0$ -> $W$(->l $\nu$) $Z$(->2l) $\widetilde{\chi}_1^0...

  • Table 69

    Data from aux. Fig28 (aux. Fig28)

    10.17182/hepdata.81996.v1/t69

    Signal regions contributing to the observed exclusion limit for chargino-neutralino production with W/Z-mediated decays.

  • Table 70

    Data from aux. Fig29 a (aux. Fig29 a)

    10.17182/hepdata.81996.v1/t70

    Expected 95% CL exclusion limit for chargino-neutralino production with W/Z-mediated decays in the 2l+jets channel.

  • Table 71

    Data from aux. Fig29 a (aux. Fig29 a)

    10.17182/hepdata.81996.v1/t71

    Observed 95% CL exclusion limit for chargino-neutralino production with W/Z-mediated decays in the 2l+jets channel.

  • Table 72

    Data from aux. Fig29 b (aux. Fig29 b)

    10.17182/hepdata.81996.v1/t72

    Expected 95% CL exclusion limit for chargino-neutralino production with W/Z-mediated decays in the 3l channel.

  • Table 73

    Data from aux. Fig29 b (aux. Fig29 b)

    10.17182/hepdata.81996.v1/t73

    Observed 95% CL exclusion limit for chargino-neutralino production with W/Z-mediated decays in the 2l+jets channel.

  • Table 74

    Data from aux. Fig30 a (aux. Fig30 a)

    10.17182/hepdata.81996.v1/t74

    Expected 95% CL exclusion limit for left-handed slepton production.

  • Table 75

    Data from aux. Fig30 a (aux. Fig30 a)

    10.17182/hepdata.81996.v1/t75

    Observed 95% CL exclusion limit for left-handed slepton production.

  • Table 76

    Data from aux. Fig30 b (aux. Fig30 b)

    10.17182/hepdata.81996.v1/t76

    Expected 95% CL exclusion limit for right-handed slepton production.

  • Table 77

    Data from aux. Fig30 b (aux. Fig30 b)

    10.17182/hepdata.81996.v1/t77

    Observed 95% CL exclusion limit for right-handed slepton production.

  • Table 78

    Data from Fig31 a (Fig31 a)

    10.17182/hepdata.81996.v1/t78

    95% upper limit on production cross-section for chargino-pair production.

  • Table 79

    Data from Fig31 b (Fig31 b)

    10.17182/hepdata.81996.v1/t79

    95% upper limit on production cross-section for direct slepton production.

  • Table 80

    Data from Fig32 a (Fig32 a)

    10.17182/hepdata.81996.v1/t80

    95% upper limit on production cross-section for chargino-neutralino production with slepton-mediated decays.

  • Table 81

    Data from Fig32 b (Fig32 b)

    10.17182/hepdata.81996.v1/t81

    95% upper limit on production cross-section for chargino-neutralino production with W/Z-mediated decays

  • Table 82

    Data from tabaux_09

    10.17182/hepdata.81996.v1/t82

    <b>Cutflow 1</b> Event counts for a signal point in SR2-SF-loose for the process P P -> $\tilde{\ell}^\pm \tilde{\ell}^\mp$ -> $\ell^\pm...

  • Table 83

    Data from tabaux_10

    10.17182/hepdata.81996.v1/t83

    <b>Cutflow 2</b> Event counts for a signal point in SR2-SF-loose and SR2-DF-100 for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_2^0$...

  • Table 84

    Data from tabaux_11

    10.17182/hepdata.81996.v1/t84

    <b>Cutflow 3</b> Event counts for two signal points in SR2-int for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_2^0$ -> $\tilde{\ell}_L...

  • Table 85

    Data from tabaux_12

    10.17182/hepdata.81996.v1/t85

    <b>Cutflow 4</b> Event counts for two signal points in SR2-low for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_1^\mp$ -> 2x...

  • Table 86

    Data from tabaux_13

    10.17182/hepdata.81996.v1/t86

    <b>Cutflow 5</b> Event counts for two signal points in SR3-WZ-0Ja/b/c and SR3-WZ-1Ja/b/c for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_2^0$...

  • Table 87

    Data from tabaux_14

    10.17182/hepdata.81996.v1/t87

    <b>Cutflow 6</b> Event counts for two signal points in SR3-slepa-e for the process P P -> $\widetilde{\chi}_1^\pm \widetilde{\chi}_2^0$ -> $\tilde{\ell}_L...

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