Effects from Hadronic Structure of Photon on Bφγ and Bs(0,ω)γ Decays

Abstract

Using the perturbative QCD approach, we studied the effects from hadronic structure of photon on the pure annihilation rediative decays Bφγ and Bs(0,ω)γ. These decays have small branching fractions due to the power suppression by the /mB, which make them very sensitive to the next-leading power corrections. The quark components and the related two-particle distribution amplitudes of a final state photon are introduced. The branching fractions can be enhanced remarkably by the factorizable and nonfactorizable emission diagrams. The branching fraction of B φγ even increases by about 40 times, and those of Bs 0γ and Bs ωγ are at the order of O(10-10). We also note that the ratio of branching fractions of Bs 0γ and Bs ωγ is very sensitive to the effects from hadronic structure of photon. All above results could be tested in future.