B -> Xsγ constraints on the top quark anomalous t-> cγ coupling

Abstract

Observation of top quark flavor changing neutral process t c +γ at the LHC would be the signal of physics beyond the Standard Model. If anomalous t cγ coupling exists, it will affect the precisely measured B(B Xs γ). In this paper, we study the effects of a dimension 5 anomalous tc γ operator in B Xs γ decay to derive constraints on its possible strength. It is found that, for real anomalous t cγ coupling tcRγ, the constraints correspond to the upper bounds B (t c + γ)<6.54 × 10-5 (for tcRγ>0) and B (t c + γ)<8.52 × 10-5 (for tcRγ<0), respectively, which are about the same order as the 5σ discovery potential of ATLAS (9.4× 10-5) and slightly lower than that of CMS (4.1× 10-4) with 10 \ fb-1 integrated luminosity operating at s =14 TeV.