Signal templates, DMsimp, spin-1, Monojet
Supplementary material
10.17182/hepdata.106059.v2/t1
Differential signal yields for various signal hypotheses.
Supplementary material
10.17182/hepdata.106059.v2/t1
Differential signal yields for various signal hypotheses.
Supplementary material
10.17182/hepdata.106059.v2/t2
Differential signal yields for various signal hypotheses.
Supplementary material
10.17182/hepdata.106059.v2/t3
Differential signal yields for various signal hypotheses.
Supplementary material
10.17182/hepdata.106059.v2/t4
Differential signal yields for various signal hypotheses.
Supplementary material
10.17182/hepdata.106059.v2/t5
Differential signal yields for various signal hypotheses.
Supplementary material
10.17182/hepdata.106059.v2/t6
Differential signal yields for various signal hypotheses.
Supplementary material
10.17182/hepdata.106059.v2/t7
Differential signal yields for various signal hypotheses.
Supplementary material
10.17182/hepdata.106059.v2/t8
Differential signal yields for various signal hypotheses.
Data from Figs. 3, 4, as well as supplementary material.
10.17182/hepdata.106059.v2/t9
Background and data yields in the control and signal region bins. The prediction before ("prefit") and after the background only...
Data from Figs. 3, 4, as well as supplementary material.
10.17182/hepdata.106059.v2/t10
Background and data yields in the control and signal region bins. The prediction before ("prefit") and after the background only...
Data from Figs. 3, 4, as well as supplementary material.
10.17182/hepdata.106059.v2/t11
Background and data yields in the control and signal region bins. The prediction before ("prefit") and after the background only...
Supplementary material
10.17182/hepdata.106059.v2/t12
Matrix of covariance coefficients between signal region bins. The coefficients are obtained from the background-only fit to the control regions,...
Supplementary material
10.17182/hepdata.106059.v2/t13
Background prediction and observed data yields in the signal region bins. The background yields are obtained from the background-only fit...
Supplementary material
10.17182/hepdata.106059.v2/t14
Matrix of covariance coefficients between signal region bins. The coefficients are obtained from the background-only fit to the control regions,...
Supplementary material
10.17182/hepdata.106059.v2/t15
Background prediction and observed data yields in the signal region bins. The background yields are obtained from the background-only fit...
Supplementary material
10.17182/hepdata.106059.v2/t16
Matrix of covariance coefficients between signal region bins. The coefficients are obtained from the background-only fit to the control regions,...
Supplementary material
10.17182/hepdata.106059.v2/t17
Background prediction and observed data yields in the signal region bins. The background yields are obtained from the background-only fit...
Supplementary material
10.17182/hepdata.106059.v2/t18
Unweighted signal acceptance times efficiency at every cut stage. The requirements called "HCAL mitigation" refer to the requirements imposed in...
Supplementary material
10.17182/hepdata.106059.v2/t19
Unweighted signal acceptance times efficiency at every cut stage. The requirements called "HCAL mitigation" refer to the requirements imposed in...
Supplementary material
10.17182/hepdata.106059.v2/t20
Unweighted signal acceptance times efficiency at every cut stage. The requirements called "HCAL mitigation" refer to the requirements imposed in...
Supplementary material
10.17182/hepdata.106059.v2/t21
Unweighted signal acceptance times efficiency at every cut stage. The requirements called "HCAL mitigation" refer to the requirements imposed in...
Supplementary material
10.17182/hepdata.106059.v2/t22
Unweighted signal acceptance times efficiency at every cut stage. The requirements called "HCAL mitigation" refer to the requirements imposed in...
Supplementary material
10.17182/hepdata.106059.v2/t23
Unweighted signal acceptance times efficiency at every cut stage. The requirements called "HCAL mitigation" refer to the requirements imposed in...
Supplementary material
10.17182/hepdata.106059.v2/t24
Unweighted signal acceptance times efficiency at every cut stage. The requirements called "HCAL mitigation" refer to the requirements imposed in...
Supplementary material
10.17182/hepdata.106059.v2/t25
Unweighted signal acceptance times efficiency at every cut stage. The requirements called "HCAL mitigation" refer to the requirements imposed in...
Supplementary material
10.17182/hepdata.106059.v2/t26
Unweighted signal acceptance times efficiency at every cut stage. The requirements called "HCAL mitigation" refer to the requirements imposed in...
Supplementary material
10.17182/hepdata.106059.v2/t27
Unweighted signal acceptance times efficiency at every cut stage. The requirements called "HCAL mitigation" refer to the requirements imposed in...
Supplementary material
10.17182/hepdata.106059.v2/t28
Unweighted signal acceptance times efficiency at every cut stage. The requirements called "HCAL mitigation" refer to the requirements imposed in...
Supplementary material
10.17182/hepdata.106059.v2/t29
Unweighted signal acceptance times efficiency at every cut stage. The requirements called "HCAL mitigation" refer to the requirements imposed in...
Supplementary material
10.17182/hepdata.106059.v2/t30
Unweighted signal acceptance times efficiency at every cut stage. The requirements called "HCAL mitigation" refer to the requirements imposed in...
Supplementary material
10.17182/hepdata.106059.v2/t31
Unweighted signal acceptance times efficiency at every cut stage. The requirements called "HCAL mitigation" refer to the requirements imposed in...
Supplementary material
10.17182/hepdata.106059.v2/t32
Unweighted signal acceptance times efficiency at every cut stage. The requirements called "HCAL mitigation" refer to the requirements imposed in...
Supplementary material
10.17182/hepdata.106059.v2/t33
Unweighted signal acceptance times efficiency at every cut stage. The requirements called "HCAL mitigation" refer to the requirements imposed in...
Supplementary material
10.17182/hepdata.106059.v2/t34
Unweighted signal acceptance times efficiency at every cut stage. The requirements called "HCAL mitigation" refer to the requirements imposed in...
Supplementary material
10.17182/hepdata.106059.v2/t35
Unweighted signal acceptance times efficiency at every cut stage. The requirements called "HCAL mitigation" refer to the requirements imposed in...
Data from Fig. 6
10.17182/hepdata.106059.v2/t36
Median Expected exclusion contour in the $m_{med}$-$m_{\chi}$ plane in the simplified model with axial couplings.
Data from Fig. 6
10.17182/hepdata.106059.v2/t37
Observed exclusion contour in the $m_{med}$-$m_{\chi}$ plane in the simplified model with axial couplings.
Data from Fig. 6
10.17182/hepdata.106059.v2/t38
Expected plus 1 s.d. exclusion contour in the $m_{med}$-$m_{\chi}$ plane in the simplified model with axial couplings.
Data from Fig. 6
10.17182/hepdata.106059.v2/t39
Expected minus 1 s.d. exclusion contour in the $m_{med}$-$m_{\chi}$ plane in the simplified model with axial couplings.
Data from Fig. 6
10.17182/hepdata.106059.v2/t40
Median Expected exclusion contour in the $m_{med}$-$m_{\chi}$ plane in the simplified model with vector couplings.
Data from Fig. 6
10.17182/hepdata.106059.v2/t41
Observed exclusion contour in the $m_{med}$-$m_{\chi}$ plane in the simplified model with vector couplings.
Data from Fig. 6
10.17182/hepdata.106059.v2/t42
Expected plus 1 s.d. exclusion contour in the $m_{med}$-$m_{\chi}$ plane in the simplified model with vector couplings.
Data from Fig. 6
10.17182/hepdata.106059.v2/t43
Expected minus 1 s.d. exclusion contour in the $m_{med}$-$m_{\chi}$ plane in the simplified model with vector couplings.
Data from Fig. 7, as well as supplementary material
10.17182/hepdata.106059.v2/t44
Upper limits on the coupling $g_{\chi}$ in the simplified model with a axial mediator.
Data from Fig. 7, as well as supplementary material
10.17182/hepdata.106059.v2/t45
Upper limits on the coupling $g_{q}$ in the simplified model with a axial mediator.
Data from Fig. 7, as well as supplementary material
10.17182/hepdata.106059.v2/t46
Upper limits on the coupling $g_{\chi}$ in the simplified model with a vector mediator.
Data from Fig. 7, as well as supplementary material
10.17182/hepdata.106059.v2/t47
Upper limits on the coupling $g_{q}$ in the simplified model with a vector mediator.
Data from Fig. 8
10.17182/hepdata.106059.v2/t48
Exclusion limits on the signal strength in the simplified model with scalar couplings.
Data from Fig. 8
10.17182/hepdata.106059.v2/t49
Exclusion limits on the signal strength in the simplified model with pseudoscalar couplings.
Data from Fig. 10
10.17182/hepdata.106059.v2/t50
Exclusion limits on the fundamental Planck scale $M_{D}$ as a function of the number of extra dimensions $d$.
Data from Fig. 9
10.17182/hepdata.106059.v2/t51
Median Expected exclusion contour in the $m_{med}$-$m_{\chi}$ plane in the fermion portal model.
Data from Fig. 9
10.17182/hepdata.106059.v2/t52
Observed exclusion contour in the $m_{med}$-$m_{\chi}$ plane in the fermion portal model.
Data from Fig. 9
10.17182/hepdata.106059.v2/t53
Expected plus 1 s.d. exclusion contour in the $m_{med}$-$m_{\chi}$ plane in the fermion portal model.
Data from Fig. 9
10.17182/hepdata.106059.v2/t54
Expected minus 1 s.d. exclusion contour in the $m_{med}$-$m_{\chi}$ plane in the fermion portal model.
Supplementary material.
10.17182/hepdata.106059.v2/t55
Tagging efficiency for AK8 jets. The efficiency includes the effect of the machine-learning based DeepAK8 tagger, as well as the...
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