Precision calculations of B K* form factors from SCET sum rules beyond leading-power contributions

Abstract

We construct light-cone sum rules (LCSR) for the B K* form factors in the large recoil region using vacuum-to-B-meson correlation functions, and systematically calculate subleading-power corrections to these form factors at tree level, including next-to-leading power contributions from the hard-collinear propagator, the subleading effective current q[iD/(2mb)]hv, and twist-five/six four-particle higher-twist effects. By incorporating the available leading-power results at O(αs) and the corrections to higher-twist B-meson light-cone distribution amplitudes from our previous work, we improve the precision of theoretical predictions for B K* form factors and find that the subleading-power contributions amount to 30\% of the corresponding leading-power results. Employing the Bourrely-Caprini-Lellouch (BCL) parametrization, we determine the numerical results for B K* form factors across the full kinematic range through a combined fit of LCSR predictions in the large recoil region and lattice QCD results in the small recoil region. Using the newly obtained B K* form factors, we compute the branching fractions for the rare decays B K* _ in the Standard Model, obtaining BR(B0 K*0 _)=8.09(96)× 10-6 and BR(B+ K*+ _)=9.95(1.05)× 10-6. Additionally, we predict that the longitudinal K* polarization fraction is FL=0.44(4).

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