Differential measurements of ttZ and tttt at large Q2 at FCC-hh

Abstract

This contribution presents studies of differential top-quark measurements at the Future Circular Collider in its proton-proton stage (FCC-hh). The analyses target the leptonic final states of the ttZ and tttt production processes. Particular focus is given to the high-Q2 regime, where sensitivity to new physics, as encoded in an Effective Field Theory framework, is enhanced. The dataset corresponds to an integrated luminosity of 30 ab-1 at s = 84 TeV. The reconstructed transverse momentum pT(Z) distribution is shown to be measurable up to approximately 2 TeV with a precision of 20% in the high energy region (pT(Z) >1.8 TeV). The scalar transverse momentum HT of the four-top production reaches 3.5 TeV with a precision of 35%. Additionally, a dedicated study of the lepton reconstruction efficiency shows that redefining the isolation variable to account for the highly boosted objects at FCC-hh improves the total signal yield in ttZ by a factor of 1.5.