Investigating non-local contributions in Bs φ including higher-twist effects
Abstract
We analyze the impact of higher-twist three-particle Bs-meson light-cone distribution amplitudes (LCDAs) on the non-local form factors for the Bs φ transition focusing on the `charm-loop' contribution within the light-cone sum rule (LCSR) framework. To analytically continue these charm-loop contributions into the kinematically allowed region of the decay, we employ a hadronic dispersion relation that incorporates intermediate resonant states such as the φ,\,J/ and (2S) mesons. Here, the LCSR predictions serve as inputs, supplemented by experimental data from two-body decays Bs φ ~+ resonance states. Our results indicate that the inclusion of twist-5 and twist-6 LCDAs enhances the non-local form factors by approximately an order of magnitude compared to previous estimates, due to partial disruption of cancellation among different twist contributions. This leads to a dilepton invariant mass-squared (q2)-dependent correction to the Wilson coefficient C9, which is higher than, but still consistent with the Standard Model prediction without the non-factorizable charm-loop corrections within uncertainties. Additionally, we update the local form factors to include contributions from higher-twist three-particle Bs-meson LCDAs. The phenomenological implications, particularly for the differential branching fraction and angular observables, are also discussed.
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