Three body radiative decay Bs φ K0 γ in the PQCD approach

Abstract

We study the three body radiative decay Bs φ K0 γ by introducing the φ K pair distribution amplitudes (DAs) in the perturbative QCD approach. This nonperturbative inputs, the two meson DAs, is very important to simplify the calculations. Besides the dominant electromagnetic penguin operator O7γ, the subleading contributions from chromomagnetic penguin operator O8g, quark-loop corrections and annihilation type amplitudes are also considered. We find that the branching ratio for the decay Bs φ K0 γ is about (9.26+1.79+3.12+0.64-1.61-3.86-0.49)×10-8, which is much smaller compared with that for the decay B0 φ K0γ. It is mainly because that the former decay induces by b dγ with small CKM matrix element being proportional to λ3. The prediction for the direct CP asymmetry is AdirCP(Bs φ K0 γ)=(-4.1+0.4+1.7+0.2-0.6-1.2-0.1)\%, which is well consistent with the result from the U-spin symmetry approach. we also predict the Bs φ K0γ decay spectrum, which exhibits a maximu at the φ K invariant masss around 1.95 GeV.