Abstract (data abstract)
CERN-LHC. Measurements of the differential cross sections for ttZ and ttH productions with a boosted Z or Higgs boson using the Z/H to bbar, and semileptonic ttbar decay channel in proton-proton collisions at a centre-of-mass energy of 13 TeV with 138 fb^-1 of data collected in 2016-2018. The fiducial region is defined as: - Missing transverse momentum (MET) > 20 GeV - 1 AK8 jet, where transverse momentum (pT) > 200 GeV, |eta| < 2.4, 50 < softdrop mass < 200 - 1 electron or muon, where pT(e) > 30 (35) GeV in 2016 (2017 and 2018), pT(mu) > 30 GeV, |eta(e)| < 2.5, |eta(mu)| < 2.4 - 1 Z or Higgs boson candidate AK8 jet, where Highest DeepAK8MD bbvL score > 0.8 - at least 5 AK4 jets, where pT > 30 GeV, |eta| < 2.4 - at least 2 b-tagged AK4 jets, where identified with DeepCSV at the medium working point, deltaR(Z/H boson candidate, b-tagged jet) > 0.8

  • Figure 7

    Data from Figure 7 (mu_ttZ and mu_ttH) from Page 15 of preprint

    Negative log-likelihood difference in $\mu_{\text{ttH}}, \mu_{\text{ttZ}}$ for a Z or Higgs boson with a simulated pT $> 200$GeV

  • Figure 9 (ctp, other WCs fixed)

    Data from the top row, left column of Figure 9 (ctp) from Page 18 of preprint

    Negative log-likelihood difference in $\text{c}_{\text{t}\varphi}$ where the other Wilson coefficients are fixed to 0.

  • Figure 9 (cpqm, other WCs fixed)

    Data from the top row, right column of Figure 9 (cpqm) from Page 18 of preprint

    Negative log-likelihood difference in $\text{c}_{\varphi\text{Q}}^{-}$ where the other Wilson coefficients are fixed to 0.

  • Figure 9 (cpq3, other WCs fixed)

    Data from the second row, left column of Figure 9 (cpq3) from Page 18 of preprint

    Negative log-likelihood difference in $\text{c}_{\varphi\text{Q}}^{3}$ where the other Wilson coefficients are fixed to 0.

  • Figure 9 (cpt, other WCs fixed)

    Data from the second row, right column of Figure 9 (cpt) from Page 18 of preprint

    Negative log-likelihood difference in $\text{c}_{\varphi\text{t}}$ where the other Wilson coefficients are fixed to 0.

  • Figure 9 (cptb, other WCs fixed)

    Data from the third row, left column of Figure 9 (cptb) from Page 18 of preprint

    Negative log-likelihood difference in $\text{c}_{\varphi\text{tb}}$ where the other Wilson coefficients are fixed to 0.

  • Figure 9 (ctw, other WCs fixed)

    Data from the third row, right column of Figure 9 (ctw) from Page 18 of preprint

    Negative log-likelihood difference in $\text{c}_{\text{tW}}$ where the other Wilson coefficients are fixed to 0.

  • Figure 9 (cbw, other WCs fixed)

    Data from the bottom row, left column of Figure 9 (cbw) from Page 18 of preprint

    Negative log-likelihood difference in $\text{c}_{\text{bW}}$ where the other Wilson coefficients are fixed to 0.

  • Figure 9 (ctz, other WCs fixed)

    Data from the bottom row, right column of Figure 9 (ctz) from Page 18 of preprint

    Negative log-likelihood difference in $\text{c}_{\text{tZ}}$ where the other Wilson coefficients are fixed to 0.

  • Figure 10 (ctp, other WCs float)

    Data from the first row, black lines of Figure 10 (ctp) from Page 19 of preprint

    Negative log-likelihood difference in $\text{c}_{\text{t}\varphi}$ where the other Wilson coefficients are simultaneously fit.

  • Figure 10 (cpqm, other WCs float)

    Data from the second row, black lines of Figure 10 (cpqm) from Page 19 of preprint

    Negative log-likelihood difference in $\text{c}_{\varphi\text{Q}}^{-}$ where the other Wilson coefficients are simultaneously fit.

  • Figure 10 (cpq3, other WCs float)

    Data from the third row, black lines of Figure 10 (cpq3) from Page 19 of preprint

    Negative log-likelihood difference in $\text{c}_{\varphi\text{Q}}^{3}$ where the other Wilson coefficients are simultaneously fit.

  • Figure 10 (cpt, other WCs float)

    Data from the fourth row, black lines of Figure 10 (cpt) from Page 19 of preprint

    Negative log-likelihood difference in $\text{c}_{\varphi\text{t}}$ where the other Wilson coefficients are simultaneously fit.

  • Figure 10 (cptb, other WCs float)

    Data from the fifth row, black lines of Figure 10 (cptb) from Page 19 of preprint

    Negative log-likelihood difference in $\text{c}_{\varphi\text{tb}}$ where the other Wilson coefficients are simultaneously fit.

  • Figure 10 (ctw, other WCs float)

    Data from the sixth row, black lines of Figure 10 (ctw) from Page 19 of preprint

    Negative log-likelihood difference in $\text{c}_{\text{tW}}$ where the other Wilson coefficients are simultaneously fit.

  • Figure 10 (cbw, other WCs float)

    Data from the seventh row, black lines of Figure 10 (cbw) from Page 19 of preprint

    Negative log-likelihood difference in $\text{c}_{\text{bW}}$ where the other Wilson coefficients are simultaneously fit.

  • Figure 10 (ctz, other WCs float)

    Data from the eighth row, black lines of Figure 10 (ctz) from Page 19 of preprint

    Negative log-likelihood difference in $\text{c}_{\text{tZ}}$ where the other Wilson coefficients are simultaneously fit.

  • Figure 11 (cpt vs cpqm)

    Data from the top-left of Figure 11 (cpt and cpqm) from Page 20 of preprint

    Negative log-likelihood difference in $\text{c}_{\varphi\text{t}}, \text{c}_{\varphi\text{Q}}^{-}$ where the other Wilson coefficients are fixed to 0.

  • Figure 11 (cpq3 vs cpqm)

    Data from the top-right of Figure 11 (cpq3 and cpqm) from Page 20 of preprint

    Negative log-likelihood difference in $\text{c}_{\varphi\text{Q}}^{3}, \text{c}_{\varphi\text{Q}}^{-}$ where the other Wilson coefficients are fixed to 0.

  • Figure 11 (ctw vs ctz)

    Data from the bottom-middle of Figure 11 (ctw and ctz) from Page 20 of preprint

    Negative log-likelihood difference in $\text{c}_{\text{tW}}, \text{c}_{\text{tZ}}$ where the other Wilson coefficients are fixed to 0.

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