A search for electroweak ttWj production in multileptonic final states at s = 13 TeV with the ATLAS detector and bounds on effective field theory operators

Abstract

A search is presented for the electroweak production of a top quark pair in association with a W boson and at least one additional jet, known as the ttW-0.2em jEW process. This process has embedded within it a tW-scattering vertex, which is probed directly for the first time. The collision data were collected with the ATLAS detector during Run 2 of the LHC and correspond to an integrated luminosity of 140 fb-1 at s=13~TeV. The search uses same-charge pairs of electrons and muons together with jets, of which at least one is b-tagged. The properties of the most forward jet relative to the rest of the event are used to discriminate the electroweak ttW-0.2em jEW production process from its strong ttW production counterpart. A measured (expected) 95% CL upper limit on the cross section is set at σttW-0.2em jEW < 251~fb (230 fb), to be compared with the expected SM cross section of 47.7 fb. Limits are set on the SM Effective Field Theory (EFT) operators OHt and O(1)HQ, which modify the electroweak couplings of the top quark through contributions to the tW-scattering vertex. The interpretation acts as a case study to emphasize the importance of energy-dependent sensitivity, multi-process and multi-operator EFT contributions.