Tracing the anomalous tqg and tqγ flavor changing interactions at the FCC-he

Abstract

We investigate the possible presence of Flavor Changing Neutral Current (FCNC) couplings of the top quark with gluon and photon through e-p e-tj process at the Future Circular Collider in the proton-electron mode (FCC-he). Focusing on disentangling the effects of different couplings that could be present, we exploit the presence of the scattered electron, the angular distribution of which is sensitive to the type of coupling involved. Top quark polarisation accessed through the angular distribution of the decay lepton provides additional handle in identifying the nature of the couplings. Further, we demonstrate the potential of electron beam polarisation in distinguishing the left-handed and right-handed couplings of both gluon and photon separately. Considering an e-p collider of beam energies of Ee(p) = 60~(50000)~GeV at 2~ab-1 integrated luminosity, couplings can be probed at the level of 10-2 with the corresponding branching fractions of BR(t uγ) 4 - 7 × 10-6 and BR(t cγ) 1-2 × 10-5, depending on if the coupling is right-handed or left-handed. The corresponding limits on the gluon couplings lead to BR(t ug) 1.7 × 10-5 and BR(t cg) 3-4 × 10-5.