Revisiting Bs PP and PV Decays with Contributions from φB2 with perturbativen QCD approach
Abstract
The Bs PP and PV decay modes are revisited at leading order within the perturbative QCD approach, incorporating the Bs mesonic wave function (WF) φB2. Here, P represents the pseudoscalar mesons π and K, while V denotes the ground-state vector mesons. The investigation incorporates two key refinements: the contribution of the sub-leading twist WF φB2 of the Bs meson and the effects of higher-order terms in the distribution amplitudes (DAs) of the final-state mesons. Employing the minimum 2 method, we optimize the shape parameter ωBs of the Bs meson WF and systematically calculate the branching ratios and CP violation parameters for these decay modes. Our results demonstrate that the inclusion of φB2 significantly impacts both the branching ratios and CP asymmetries, offer an improved agreement with existing experimental data for specific channels. This underscores the necessity of accounting for φB2 in theoretical studies of Bs weak decays. While the higher-order corrections in the final-state meson DAs yield comparatively smaller effects, they still enhance the theoretical predictions. These findings highlight the importance of refining both wave function modeling and higher-order contributions in pQCD calculations. Future high-precision experimental measurements will further test these predictions, while continued theoretical efforts are essential to explore additional interaction mechanisms and systematic uncertainties. The interplay between experimental advancements and theoretical improvements remains critical for a deeper understanding of Bs meson decay dynamics.
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