Quasi-two-body decays B(s) K*γ Kπγ in perturbative QCD approach

Abstract

In this work we study the quasi-two-body decays B K*γ Kπγ in the perturbative QCD (PQCD) approach. The two-meson distribution amplitudes (DAs) are introduced to describe the final state interactions of the Kπ pair, which involve the time-like form factors and the Gegenbauer polynomials. We calculate the CP averaged branching ratios for the decays B(s) K*γ Kπγ. Our results are in agreement with the new update data measured by Belle II, which suggests these quasi-two-body decays are more appropriate to be analyzed in three-body framework than in the two-body one. We also predict the direct CP-violation asymmetries for the considered decay modes and find that ACP(Bu,d K*γ Kπγ) is small and less than 1\% in magnitude, while ACP(Bs K*γ Kπγ) is larger and can arrive at a few percent. Our predictions can be tested by the future B meson experiments.

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