Vcb puzzle in semi-leptonic B D* decays revisited
Abstract
Inspired by the newly reported B D*( Dπ) differential decay rates by the Belle and Belle II Collaborations, we revisit the Vcb puzzle in semi-leptonic B D* decays, considering the latest lattice QCD~(LQCD) simulations and light-cone sum rule~(LCSR) results. We examine the commonly used Caprini-Lellouch-Neubert~(CLN), Boyd-Grinstein-Lebed~(BGL), and heavy quark effective theory~(HQET) parameterizations. We demonstrate that these three parameterizations yield consistent results and reconfirm the Vcb puzzle. Then, we use a state-of-the-art Bayesian method to estimate the impact of higher-order terms beyond the present HQET expansion on the uncertainty of Vcb. We show that higher-order effects cannot eliminate the deviation between the exclusive and inclusive determinations of Vcb. Finally, utilizing the best-fit results obtained in the HQET parameterization via fitting LQCD and LCSR data only as inputs, we predict the relevant observables, i.e., RD*, FLD*, and PτD*, sensitive to new physics in the B D* decays. We conclude that lepton-flavour universality violations still exist in the b cτ.
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