Charming-loop contribution to Bs γγ decay

Abstract

We present a detailed theoretical study of nonfactorizable contributions of the charm-quark loop to the amplitude of the Bs γ\,γ decay. This contribution involves the B-meson three-particle Bethe-Salpeter amplitude, 0| s(y)Gμ(x)b(0)| Bs(p), for which we take into account constraints from analyticity and continuity. The charming-loop contribution of interest may be described as a correction to the Wilson coefficient C7γ, C7γ C7γ(1+δ C7γ). We calculate an explicit dependence of δ C7γ on the parameter λBs. Taking into account all theoretical uncertainties, δ C7γ may be predicted with better than 10\% accuracy for any given value of λBs. For our benchmark point λBs=0.45 GeV, we obtain δ C7γ=0.045 0.004. Presently, λBs is not known with high accuracy, but its value is expected to lie in the range 0.3 λBs( GeV) 0.6. The corresponding range of δ C7γ is found to be 0.02 δ C7γ 0.1. One therefore expects the correction given by charming loops at the level of at least a few percent.