Abstract
We investigate the top quark anomalous Flavor Changing Neutral Current (FCNC) $tqg$ interactions to probe limits on the couplings $\zeta_c$ and $\zeta_u$ through the $qg \to l\nu b$ 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 $\zeta_u$ and $\zeta_c$ are found to be $1.239\times10^{-4}$ and $1.149\times10^{-4}$ for FCC-hh with $L_{int}$=10 ab$^{-1}$ at 95 \% C.L. including realistic detector effects of the FCC-hh baseline detector, respectively. The branchings $BR (t \to ug)$ and $BR (t \to c g)$ 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 $L_{int}$= 3 ab$^{-1}$.
Highlights
The top quark being the most massive elementary particle in the Standard Model (SM) is an excellent probe to search the dynamics of electroweak symmetry breaking and to test SM and beyond the Standard Model (BSM) physics
We have investigated the potential of an future circular collider (FCC)-hh collider for qg → lνb process at a center of mass energy of 100 TeV to set an upper limits on the anomalous top flavour changing neutral current (FCNC) tqg couplings including realistic detector effects
The selection criteria based on boosted decision trees (BDT) is used with a set of useful kinematic variables to separate signal from relevant background processes
Summary
The top quark being the most massive elementary particle in the Standard Model (SM) is an excellent probe to search the dynamics of electroweak symmetry breaking and to test SM and beyond the Standard Model (BSM) physics. We investigate anomalous FCNC tqg interactions to probe limits on couplings ζc and ζu couplings through the qg → lνb signal subprocess at FCC-hh collider.
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