Constraints on flavor-changing neutral-current Htq couplings from the signal of tH associated production with QCD next-to-leading order accuracy at the LHC

Abstract

We study a generic Higgs boson and a top quark associated production via model-independent flavor-changing neutral-current couplings at the LHC, including complete QCD next-to-leading order (NLO) corrections to the production and decay of the top quark and the Higgs boson. We find that QCD NLO corrections can increase the total production cross sections by about 48.9% and 57.9% for the Htu and Htc coupling induced processes at the LHC, respectively. After kinematic cuts are imposed on the decay products of the top quark and the Higgs boson, the QCD NLO corrections are reduced to 11% for the Htu coupling induced process and almost vanish for the Htc coupling induced process. Moreover, QCD NLO corrections reduce the dependence of the total cross sections on the renormalization and factorization scales. We also discuss signals of the tH associated production with the decay mode t → bl+E T, H → bb and tt production with the decay mode t → Hq, t→ bl+E T. Our results show that, in some parameter regions, the LHC may observe the above signals at the 5σ level. Otherwise, the upper limits on the FCNC Htq couplings can be set.