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Differential tt(bar) cross-section measurements using boosted top quarks in the all-hadronic final state with 139 fb-1 of ATLAS data

Publication at Faculty of Mathematics and Physics |
2023

Abstract

Measurements of single-, double-, and triple-differential cross-sections are presented for boosted top-quark pair-production in 13 TeV proton-proton collisions recorded by the ATLAS detector at the LHC. The top quarks are observed through their hadronic decay and reconstructed as large-radius jets with the leading jet having transverse momentum

(pT) greater than 500 GeV. The observed data are unfolded to remove detector effects. The particle-level cross-section, multiplied by the t-t ! WWb-b branching fraction and measured in a fiducial phase space defined by requiring the leading and second-leading jets to have pT > 500 GeV and pT > 350 GeV, respectively, is 331 +- 3(stat.) +- 39(syst.) fb.

This is approximately 20% lower than the prediction of 398+48

-49 fb by Powheg+Pythia 8 with next-to-leading-order (NLO) accuracy but consistent within the theoretical uncertainties.

Results are also presented at the parton level, where the effects of top-quark decay, parton showering, and hadronization are removed such that they can be compared with fixed-order next-to-next-to-leading-order (NNLO) calculations. The partonlevel cross-section, measured in a fiducial phase space similar to that at particle level, is 1.94 +- 0.02(stat.) +- 0.25(syst.) pb. This agrees with the NNLO prediction of 1.96+0.02-0.17 pb.

Reasonable agreement with the differential cross-sections is found for most NLO models, while the NNLO calculations are generally in better agreement with the data. The differential cross-sections are interpreted using a Standard Model effective field-theory formalism and limits are set on Wilson coefficients of several four-fermion operators.