Constraining the top electroweak sector of the SMEFT through Z associated top pair and single top production at the HL-LHC

Abstract

We study the processes pp ttZ and pp tZj in the framework of Standard Model Effective Field Theory (SMEFT), employing conventional cut-and-count as well as machine learning techniques to take advantage of kinematic information in complex final states involving multiple leptons and b jets. We explore the projected sensitivity for two SMEFT operators, OtZ and OtW, that induce electroweak dipole moment interactions for top quarks, through direct searches in these electroweak top production processes at the HL-LHC. New physics modifications to dominant backgrounds are also considered. We show that the new physics sensitivity can be enhanced through a combination of differential distributions for relevant kinematic observables and machine learning techniques. Searches in ttZ and tZj production result in stronger constraints on CtZ and CtW, respectively. At the HL-LHC, CtZ can be probed up to -0.41 CtZ 0.47 through searches in the pp ttZ + tWZ 3 + 2b\ + ≥ 2j channel while CtW can be probed up to -0.14 CtW < 0.11 from searches in the pp tZj + ttZ + tWZ 3 + 1b + 1/2j channel, at 95\% CL.

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