Abstract
We provide results for the full set of form factors describing semileptonic B-meson transitions to pseudoscalar mesons π, K, \( \overline{D} \) and vector mesons ρ, K∗, \( {\overline{D}}^{\ast } \). Our results are obtained within the framework of QCD Light-Cone Sum Rules with B-meson distribution amplitudes. We recalculate and confirm the results for the leading-twist two-particle contributions in the literature. Furthermore, we calculate and provide new expressions for the two-particle contributions up to twist four. Following new developments for the three-particle distribution amplitudes, we calculate and provide new results for the complete set of three-particle contributions up to twist four. The form factors are computed numerically at several phase space points using up-to-date input parameters, including correlations across phase space points and form factors. We use a model ansatz for all contributing B-meson distribution amplitudes that is self-consistent up to twist-four accuracy. We find that the higher-twist two-particle contributions have a substantial impact on the results, and dominate over the three-particle contributions. Our numerical results, including correlations, are provided as machine-readable files in the supplementary material. We discuss the qualitative phenomenological impact of our results on the present b anomalies.
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Gubernari, N., Kokulu, A. & van Dyk, D. B →P and B →V form factors from B-meson light-cone sum rules beyond leading twist. J. High Energ. Phys. 2019, 150 (2019). https://doi.org/10.1007/JHEP01(2019)150
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DOI: https://doi.org/10.1007/JHEP01(2019)150