Top quark anomalous FCNC production via tqg couplings at FCC-hh

Abstract

We investigate the top quark anomalous Flavor Changing Neutral Current (FCNC) tqg interactions to probe limits on the couplings ζc and ζu through the qg l b signal suprocess at FCC-hh collider with center of mass energy of 100 TeV. To separate signal from relevant Standard Model background processes, selection criteria based on Boosted Decision Trees (BDT) is used with a set of useful kinematic variables. The sensitivities on the anomalous top FCNC couplings ζu and ζc are found to be 1.239×10-4 and 1.149×10-4 for FCC-hh with Lint=10 ab-1 at 95 \% C.L. including realistic detector effects of the FCC-hh baseline detector, respectively. The branchings BR (t ug) and BR (t c g) converted from obtained limits for FCNC couplings are at the order of 10-7 which is at least one order of magnitude better than the projected limits of HL-LHC with Lint= 3 ab-1.