Study on pure annihilation type B to V gamma decays

Abstract

We investigate the pure annihilation type radiative B meson decays B0 φ γ and Bs 0(ω)γ in the soft-collinear effective theory. We consider three types of contributions to the decay amplitudes, including the direct annihilation topology, the contribution from the electro-magnetic penguin operator and the contribution of the neutral vector meson mixings. The numerical analysis shows that the decay amplitudes are dominated by the ω-φ mixing effect in the B0 φγ and Bs ωγ modes. The corresponding decay branching ratios are enhanced about three orders of magnitudes relative to the pure annihilation type contribution in these two decay channels. The decay rate of Bs 0γ is much smaller than that of Bs ωγ because of the smaller 0-φ mixing. The predicted branching ratios B(B0→φγ)=(3.99+1.67-1.46 )×10-9,\,B(Bs→ωγ)=(2.01+0.81-0.71 )×10-7 are to be tested by the Belle-II and LHC-b experiments.

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