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Search for new phenomena in $pp$ collisions in final states with tau leptons, $b$-jets, and missing transverse momentum with the ATLAS detector

The collaboration
CERN-EP-2021-118, 2021.

Abstract (data abstract)
A search for new phenomena in final states with hadronically decaying tau leptons, b-jets, and missing transverse momentum is presented. The analyzed dataset comprises pp collision data at a center-of-mass energy of 13 TeV with an integrated luminosity of 139/fb, delivered by the Large Hadron Collider and recorded with the ATLAS detector from 2015 to 2018. The observed data are compatible with the expected Standard Model background. The results are interpreted in simplified models for two different scenarios. The first model considers pair production of supersymmetric top squarks, each of which decays into a b-quark, a neutrino and a supersymmetric tau slepton. Each tau slepton in turn decays into a tau lepton and a nearly massless supersymmetric gravitino. Within this model, top-squark masses of 1.4 TeV can be excluded at the 95% confidence level over a wide range of tau-slepton masses. The second model considers pair production of leptoquarks with decays into third-generation leptons and quarks. Depending on the branching fraction into charged leptons, leptoquarks with masses up to around 1.25 TeV can be excluded at the 95% confidence level for the case of scalar leptoquarks and up to 1.8 TeV (1.5 TeV) for vector leptoquarks in a Yang–Mills (minimal-coupling) scenario. In addition, model-independent upper limits are set on the cross section of processes beyond the Standard Model.

• #### Table 5

Data from Table 5

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Relative systematic uncertainties in the estimated number of background events in the signal regions. In the lower part of the...

• #### Figure 7a

Data from Figure 7a

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Distributions of $m_{\text{T}2}(\tau_{1},\tau_{2})$ in the di-tau SR. The stacked histograms show the various SM background contributions. The hatched band indicates...

• #### Figure 7b

Data from Figure 7b

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Distributions of $E_{\text{T}}^{\text{miss}}$ in the di-tau SR. The stacked histograms show the various SM background contributions. The hatched band indicates...

• #### Figure 7c

Data from Figure 7c

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Distributions of $s_{\text{T}}$ in the single-tau one-bin SR. The stacked histograms show the various SM background contributions. The hatched band...

• #### Figure 7d

Data from Figure 7d

10.17182/hepdata.105998.v1/t5

Distributions of $m_{\text{T}}(\tau)$ in the single-tau one-bin SR. The stacked histograms show the various SM background contributions. The hatched band...

• #### Figure 7e

Data from Figure 7e

10.17182/hepdata.105998.v1/t6

Distributions of $\Sigma m_{\text{T}}(b_{1,2})$ in the single-tau $p_{\text{T}}(\tau)$-binned SR. The stacked histograms show the various SM background contributions. The hatched...

• #### Figure 7f

Data from Figure 7f

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Distributions of $p_{\text{T}}(\tau)$ in the single-tau $p_{\text{T}}(\tau)$-binned SR. The stacked histograms show the various SM background contributions. The hatched band...

• #### Table 6

Data from Table 6

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Observed event yields in data ('Observed') and expected event yields for SM background processes obtained from the background-only fit ('Total...

• #### Table 7

Data from Table 7

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From left to right: upper limits at the 95% confidence level (CL) on the visible cross section ($\sigma_\text{vis}$) and on...

• #### Figure 10a (exp)

Data from Figure 10 (top)

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Expected and observed exclusion contours at the 95% confidence level for the vector third-generation leptoquark signal model, as a function...

• #### Figure 10a (obs)

Data from Figure 10 (top)

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Expected and observed exclusion contours at the 95% confidence level for the vector third-generation leptoquark signal model, as a function...

• #### Figure 10b (exp)

Data from Figure 10 (bottom)

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Expected and observed exclusion contours at the 95% confidence level for the vector third-generation leptoquark signal model, as a function...

• #### Figure 10b (obs)

Data from Figure 10 (bottom)

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Expected and observed exclusion contours at the 95% confidence level for the vector third-generation leptoquark signal model, as a function...

• #### Figure 8 (exp)

Data from Figure 8

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Exclusion contours at the 95% confidence level for the stop-stau signal model as a function of the masses of the...

• #### Figure 8 (obs)

Data from Figure 8

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Exclusion contours at the 95% confidence level for the stop-stau signal model as a function of the masses of the...

• #### Figure 9a (exp)

Data from Figure 9 (top)

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Expected and observed exclusion contours at the 95% confidence level for the scalar third-generation leptoquark signal model, as a function...

• #### Figure 9a (obs)

Data from Figure 9 (top)

10.17182/hepdata.105998.v1/t17

Expected and observed exclusion contours at the 95% confidence level for the scalar third-generation leptoquark signal model, as a function...

• #### Figure 9b (exp)

Data from Figure 9 (bottom)

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Expected and observed exclusion contours at the 95% confidence level for the scalar third-generation leptoquark signal model, as a function...

• #### Figure 9b (obs)

Data from Figure 9 (bottom)

10.17182/hepdata.105998.v1/t19

Expected and observed exclusion contours at the 95% confidence level for the scalar third-generation leptoquark signal model, as a function...

• #### Figure 2 aux. material

Data from Figure 2 from the auxiliary material, i.e. Table 8 in https://atlas.web.cern.ch/Atlas/GROUPS/PHYSICS/PAPERS/SUSY-2019-18/hepdata_info.pdf

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Upper limits on the signal cross section at the 95 % confidence level for the stop-stau signal model.

• #### Figure 3a aux. material

Data from Figure 3a from the auxiliary material, i.e. Table 9 in https://atlas.web.cern.ch/Atlas/GROUPS/PHYSICS/PAPERS/SUSY-2019-18/hepdata_info.pdf

10.17182/hepdata.105998.v1/t21

Upper limits on the signal cross section at the 95 % confidence level for the scalar third-generation leptoquark signal model...

• #### Figure 3b aux. material

Data from Figure 3b from the auxiliary material, i.e. Table 9 in https://atlas.web.cern.ch/Atlas/GROUPS/PHYSICS/PAPERS/SUSY-2019-18/hepdata_info.pdf

10.17182/hepdata.105998.v1/t22

Upper limits on the signal cross section at the 95 % confidence level for the scalar third-generation leptoquark signal model...

• #### Figure 4a aux. material

Data from Figure 4a from the auxiliary material, i.e. Table 10 in https://atlas.web.cern.ch/Atlas/GROUPS/PHYSICS/PAPERS/SUSY-2019-18/hepdata_info.pdf

10.17182/hepdata.105998.v1/t23

Upper limits on the signal cross section at the 95 % confidence level for the vector third-generation leptoquark signal model...

• #### Figure 4b aux. material

Data from Figure 4b from the auxiliary material, i.e. Table 10 in https://atlas.web.cern.ch/Atlas/GROUPS/PHYSICS/PAPERS/SUSY-2019-18/hepdata_info.pdf

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Upper limits on the signal cross section at the 95 % confidence level for the vector third-generation leptoquark signal model...

• #### Figure 5a aux. material

Data from figure 5 from the auxiliary material

10.17182/hepdata.105998.v1/t25

Acceptance of the one-bin signal region of the single-tau channel for pair production of up-type leptoquarks $\text{LQ}_{3}^{\text{u}}$.

• #### Figure 5b aux. material

Data from figure 5 from the auxiliary material

10.17182/hepdata.105998.v1/t26

Efficiency of the one-bin signal region of the single-tau channel for pair production of up-type leptoquarks $\text{LQ}_{3}^{\text{u}}$. The plot does...

• #### Figure 6a aux. material

Data from figure 6 from the auxiliary material

10.17182/hepdata.105998.v1/t27

Acceptance of the first bin of the multi-bin signal region (50 GeV $< p_{\text{T}}(\tau) <$ 100 GeV) of the single-tau...

• #### Figure 6b aux. material

Data from figure 6 from the auxiliary material

10.17182/hepdata.105998.v1/t28

Efficiency of the first bin of the multi-bin signal region (50 GeV $< p_{\text{T}}(\tau) <$ 100 GeV) of the single-tau...

• #### Figure 7a aux. material

Data from figure 7 from the auxiliary material

10.17182/hepdata.105998.v1/t29

Acceptance of the middle bin of the multi-bin signal region (100 GeV $< p_{\text{T}}(\tau) <$ 200 GeV) of the single-tau...

• #### Figure 7b aux. material

Data from figure 7 from the auxiliary material

10.17182/hepdata.105998.v1/t30

Efficiency of the middle bin of the multi-bin signal region (100 GeV $< p_{\text{T}}(\tau) <$ 200 GeV) of the single-tau...

• #### Figure 8a aux. material

Data from figure 8 from the auxiliary material

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Acceptance of the last bin of the multi-bin signal region (200 GeV $< p_{\text{T}}(\tau)$) of the single-tau channel for pair...

• #### Figure 8b aux. material

Data from figure 8 from the auxiliary material

10.17182/hepdata.105998.v1/t32

Efficiency of the last bin of the multi-bin signal region (200 GeV $< p_{\text{T}}(\tau)$) of the single-tau channel for pair...

• #### Figure 9a aux. material

Data from figure 9 from the auxiliary material

10.17182/hepdata.105998.v1/t33

Acceptance of the signal region of the di-tau channel for pair production of up-type leptoquarks $\text{LQ}_{3}^{\text{u}}$.

• #### Figure 9b aux. material

Data from figure 9 from the auxiliary material

10.17182/hepdata.105998.v1/t34

Efficiency of the signal region of the di-tau channel for pair production of up-type leptoquarks $\text{LQ}_{3}^{\text{u}}$. The plot does not...

• #### Figure 10a aux. material

Data from figure 10 from the auxiliary material

10.17182/hepdata.105998.v1/t35

Acceptance of the one-bin signal region of the single-tau channel for pair production of down-type leptoquarks $\text{LQ}_{3}^{\text{d}}$.

• #### Figure 10b aux. material

Data from figure 10 from the auxiliary material

10.17182/hepdata.105998.v1/t36

Efficiency of the one-bin signal region of the single-tau channel for pair production of down-type leptoquarks $\text{LQ}_{3}^{\text{d}}$. The plot does...

• #### Figure 11a aux. material

Data from figure 11 from the auxiliary material

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Acceptance of the first bin of the multi-bin signal region (50 GeV $< p_{\text{T}}(\tau) <$ 100 GeV) of the single-tau...

• #### Figure 11b aux. material

Data from figure 11 from the auxiliary material

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Efficiency of the first bin of the multi-bin signal region (50 GeV $< p_{\text{T}}(\tau) <$ 100 GeV) of the single-tau...

• #### Figure 12a aux. material

Data from figure 12 from the auxiliary material

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Acceptance of the middle bin of the multi-bin signal region (100 GeV $< p_{\text{T}}(\tau) <$ 200 GeV) of the single-tau...

• #### Figure 12b aux. material

Data from figure 12 from the auxiliary material

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Efficiency of the middle bin of the multi-bin signal region (100 GeV $< p_{\text{T}}(\tau) <$ 200 GeV) of the single-tau...

• #### Figure 13a aux. material

Data from figure 13 from the auxiliary material

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Acceptance of the last bin of the multi-bin signal region (200 GeV $< p_{\text{T}}(\tau)$) of the single-tau channel for pair...

• #### Figure 13b aux. material

Data from figure 13 from the auxiliary material

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Efficiency of the last bin of the multi-bin signal region (200 GeV $< p_{\text{T}}(\tau)$) of the single-tau channel for pair...

• #### Figure 14a aux. material

Data from figure 14 from the auxiliary material

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Acceptance of the signal region of the di-tau channel for pair production of down-type leptoquarks $\text{LQ}_{3}^{\text{d}}$.

• #### Figure 14b aux. material

Data from figure 14 from the auxiliary material

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Efficiency of the signal region of the di-tau channel for pair production of down-type leptoquarks $\text{LQ}_{3}^{\text{d}}$. The plot does not...

• #### Figure 15a aux. material

Data from figure 15 from the auxiliary material

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Acceptance of the one-bin signal region of the single-tau channel for pair production of vector leptoquarks $\text{LQ}_{3}^{\text{v}}$ in the minimal-coupling...

• #### Figure 15b aux. material

Data from figure 15 from the auxiliary material

10.17182/hepdata.105998.v1/t46

Efficiency of the one-bin signal region of the single-tau channel for pair production of vector leptoquarks $\text{LQ}_{3}^{\text{v}}$ in the minimal-coupling...

• #### Figure 16a aux. material

Data from figure 16 from the auxiliary material

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Acceptance of the first bin of the multi-bin signal region (50 GeV $< p_{\text{T}}(\tau) <$ 100 GeV) of the single-tau...

• #### Figure 16b aux. material

Data from figure 16 from the auxiliary material

10.17182/hepdata.105998.v1/t48

Efficiency of the first bin of the multi-bin signal region (50 GeV $< p_{\text{T}}(\tau) <$ 100 GeV) of the single-tau...

• #### Figure 17a aux. material

Data from figure 17 from the auxiliary material

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Acceptance of the middle bin of the multi-bin signal region (100 GeV $< p_{\text{T}}(\tau) <$ 200 GeV) of the single-tau...

• #### Figure 17b aux. material

Data from figure 17 from the auxiliary material

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Efficiency of the middle bin of the multi-bin signal region (100 GeV $< p_{\text{T}}(\tau) <$ 200 GeV) of the single-tau...

• #### Figure 18a aux. material

Data from figure 18 from the auxiliary material

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Acceptance of the last bin of the multi-bin signal region (200 GeV $< p_{\text{T}}(\tau)$) of the single-tau channel for pair...

• #### Figure 18b aux. material

Data from figure 18 from the auxiliary material

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Efficiency of the last bin of the multi-bin signal region (200 GeV $< p_{\text{T}}(\tau)$) of the single-tau channel for pair...

• #### Figure 19a aux. material

Data from figure 19 from the auxiliary material

10.17182/hepdata.105998.v1/t53

Acceptance of the signal region of the di-tau channel for pair production of vector leptoquarks $\text{LQ}_{3}^{\text{v}}$ in the minimal-coupling scenario.

• #### Figure 19b aux. material

Data from figure 19 from the auxiliary material

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Efficiency of the signal region of the di-tau channel for pair production of vector leptoquarks $\text{LQ}_{3}^{\text{v}}$ in the minimal-coupling scenario....

• #### Figure 20a aux. material

Data from figure 20 from the auxiliary material

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Acceptance of the one-bin signal region of the single-tau channel for pair production of vector leptoquarks $\text{LQ}_{3}^{\text{v}}$ with additional gauge...

• #### Figure 20b aux. material

Data from figure 20 from the auxiliary material

10.17182/hepdata.105998.v1/t56

Efficiency of the one-bin signal region of the single-tau channel for pair production of vector leptoquarks $\text{LQ}_{3}^{\text{v}}$ with additional gauge...

• #### Figure 21a aux. material

Data from figure 21 from the auxiliary material

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Acceptance of the first bin of the multi-bin signal region (50 GeV $< p_{\text{T}}(\tau) <$ 100 GeV) of the single-tau...

• #### Figure 21b aux. material

Data from figure 21 from the auxiliary material

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Efficiency of the first bin of the multi-bin signal region (50 GeV $< p_{\text{T}}(\tau) <$ 100 GeV) of the single-tau...

• #### Figure 22a aux. material

Data from figure 22 from the auxiliary material

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Acceptance of the middle bin of the multi-bin signal region (100 GeV $< p_{\text{T}}(\tau) <$ 200 GeV) of the single-tau...

• #### Figure 22b aux. material

Data from figure 22 from the auxiliary material

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Efficiency of the middle bin of the multi-bin signal region (100 GeV $< p_{\text{T}}(\tau) <$ 200 GeV) of the single-tau...

• #### Figure 23a aux. material

Data from figure 23 from the auxiliary material

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Acceptance of the last bin of the multi-bin signal region (200 GeV $< p_{\text{T}}(\tau)$) of the single-tau channel for pair...

• #### Figure 23b aux. material

Data from figure 23 from the auxiliary material

10.17182/hepdata.105998.v1/t62

Efficiency of the last bin of the multi-bin signal region (200 GeV $< p_{\text{T}}(\tau)$) of the single-tau channel for pair...

• #### Figure 24a aux. material

Data from figure 24 from the auxiliary material

10.17182/hepdata.105998.v1/t63

Acceptance of the signal region of the di-tau channel for pair production of vector leptoquarks $\text{LQ}_{3}^{\text{v}}$ with additional gauge couplings.

• #### Figure 24b aux. material

Data from figure 24 from the auxiliary material

10.17182/hepdata.105998.v1/t64

Efficiency of the signal region of the di-tau channel for pair production of vector leptoquarks $\text{LQ}_{3}^{\text{v}}$ with additional gauge couplings....

• #### Figure 25a aux. material

Data from figure 25 from the auxiliary material

10.17182/hepdata.105998.v1/t65

Acceptance of the one-bin signal region of the single-tau channel for pair production of top squarks with decays via tau...

• #### Figure 25b aux. material

Data from figure 25 from the auxiliary material

10.17182/hepdata.105998.v1/t66

Efficiency of the one-bin signal region of the single-tau channel for pair production of top squarks with decays via tau...

• #### Figure 26a aux. material

Data from figure 26 from the auxiliary material

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Acceptance of the first bin of the multi-bin signal region (50 GeV $< p_{\text{T}}(\tau) <$ 100 GeV) of the single-tau...

• #### Figure 26b aux. material

Data from figure 26 from the auxiliary material

10.17182/hepdata.105998.v1/t68

Efficiency of the first bin of the multi-bin signal region (50 GeV $< p_{\text{T}}(\tau) <$ 100 GeV) of the single-tau...

• #### Figure 27a aux. material

Data from figure 27 from the auxiliary material

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Acceptance of the middle bin of the multi-bin signal region (100 GeV $< p_{\text{T}}(\tau) <$ 200 GeV) of the single-tau...

• #### Figure 27b aux. material

Data from figure 27 from the auxiliary material

10.17182/hepdata.105998.v1/t70

Efficiency of the middle bin of the multi-bin signal region (100 GeV $< p_{\text{T}}(\tau) <$ 200 GeV) of the single-tau...

• #### Figure 28a aux. material

Data from figure 28 from the auxiliary material

10.17182/hepdata.105998.v1/t71

Acceptance of the last bin of the multi-bin signal region (200 GeV $< p_{\text{T}}(\tau)$) of the single-tau channel for pair...

• #### Figure 28b aux. material

Data from figure 28 from the auxiliary material

10.17182/hepdata.105998.v1/t72

Efficiency of the last bin of the multi-bin signal region (200 GeV $< p_{\text{T}}(\tau)$) of the single-tau channel for pair...

• #### Figure 29a aux. material

Data from figure 29 from the auxiliary material

10.17182/hepdata.105998.v1/t73

Acceptance of the signal region of the di-tau channel for pair production of top squarks with decays via tau sleptons.

• #### Figure 29b aux. material

Data from figure 29 from the auxiliary material

10.17182/hepdata.105998.v1/t74

Efficiency of the signal region of the di-tau channel for pair production of top squarks with decays via tau sleptons.

• #### Table 1 aux. material

Data from Table 1 from the auxiliary material

10.17182/hepdata.105998.v1/t75

Cutflow for the benchmark signal model $m(\tilde{t}_{1}) = 1350$ GeV, $m(\tilde{\tau}_{1}) = 1090$ GeV for the di-tau SR. The simulated...

• #### Table 2 aux. material

Data from Table 2 from the auxiliary material

10.17182/hepdata.105998.v1/t76

Cutflow for the benchmark signal model $m(\tilde{t}_{1}) = 1350$ GeV, $m(\tilde{\tau}_{1}) = 1090$ GeV for the single-tau one-bin SR. The...

• #### Table 3 aux. material

Data from Table 3 from the auxiliary material

10.17182/hepdata.105998.v1/t77

Cutflow for the benchmark signal model $m(\tilde{t}_{1}) = 1350$ GeV, $m(\tilde{\tau}_{1}) = 1090$ GeV for the single-tau multi-bin SR. The...

• #### Table 4 aux. material

Data from Table 4 from the auxiliary material

10.17182/hepdata.105998.v1/t78

Cutflow for the benchmark signal model $m(\text{LQ}_{3}^{\text{u}}) = 1.2$ TeV, $\beta = 0.5$ for the di-tau SR. The simulated sample...

• #### Table 5 aux. material

Data from Table 5 from the auxiliary material

10.17182/hepdata.105998.v1/t79

Cutflow for the benchmark signal model $m(\text{LQ}_{3}^{\text{u}}) = 1.2$ TeV, $\beta = 0.5$ for the single-tau one-bin SR. The simulated...

• #### Table 6 aux. material

Data from Table 6 from the auxiliary material

10.17182/hepdata.105998.v1/t80

Cutflow for the benchmark signal model $m(\text{LQ}_{3}^{\text{u}}) = 1.2$ TeV, $\beta = 0.5$ for the single-tau multi-bin SR. The simulated...

• #### Table 7 aux. material

Data from Table 7 from the auxiliary material

10.17182/hepdata.105998.v1/t81

Cutflow for the benchmark signal model $m(\text{LQ}_{3}^{\text{d}}) = 1.2$ TeV, $\beta = 0.5$ for the di-tau SR. The simulated sample...

• #### Table 8 aux. material

Data from Table 8 from the auxiliary material

10.17182/hepdata.105998.v1/t82

Cutflow for the benchmark signal model $m(\text{LQ}_{3}^{\text{d}}) = 1.2$ TeV, $\beta = 0.5$ for the single-tau one-bin SR. The simulated...

• #### Table 9 aux. material

Data from Table 9 from the auxiliary material

10.17182/hepdata.105998.v1/t83

Cutflow for the benchmark signal model $m(\text{LQ}_{3}^{\text{d}}) = 1.2$ TeV, $\beta = 0.5$ for the single-tau multi-bin SR. The simulated...

• #### Table 10 aux. material

Data from Table 10 from the auxiliary material

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Cutflow for the benchmark signal model $m(\text{LQ}_{3}^{\text{v}}) = 1.4$ TeV, $\beta = 0.5$ in the minimal-coupling scenario for the di-tau...

• #### Table 11 aux. material

Data from Table 11 from the auxiliary material

10.17182/hepdata.105998.v1/t85

Cutflow for the benchmark signal model $m(\text{LQ}_{3}^{\text{v}}) = 1.4$ TeV, $\beta = 0.5$ in the minimal-coupling scenario for the single-tau...

• #### Table 12 aux. material

Data from Table 12 from the auxiliary material

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Cutflow for the benchmark signal model $m(\text{LQ}_{3}^{\text{v}}) = 1.4$ TeV, $\beta = 0.5$ in the minimal-coupling scenario for the single-tau...

• #### Table 13 aux. material

Data from Table 13 from the auxiliary material

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Cutflow for the benchmark signal model $m(\text{LQ}_{3}^{\text{v}}) = 1.4$ TeV, $\beta = 0.5$ in the Yang--Mills scenario for the di-tau...

• #### Table 14 aux. material

Data from Table 14 from the auxiliary material

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Cutflow for the benchmark signal model $m(\text{LQ}_{3}^{\text{v}}) = 1.4$ TeV, $\beta = 0.5$ in the Yang--Mills scenario for the single-tau...

• #### Table 15 aux. material

Data from Table 15 from the auxiliary material

10.17182/hepdata.105998.v1/t89

Cutflow for the benchmark signal model $m(\text{LQ}_{3}^{\text{v}}) = 1.4$ TeV, $\beta = 0.5$ in the Yang--Mills scenario for the single-tau...