Correlated PQCD Analysis of the Semileptonic Decays B0 D(*)+- and the Nonleptonic Decays B0 D(*)+π-

Abstract

We present a unified analysis of B0 D(*)+- and B0 D(*)+π- decays using the perturbative QCD (PQCD) approach. The B D(*) transition form factors are calculated at low q2 and extrapolated to the high-q2 region using the latest lattice QCD results via a model-independent z-expansion. This hybrid method provides a precise form factor description across the full kinematic range. We then predict the branching fractions and the lepton flavor universality ratios R(D) = 0.336+0.014-0.013 and R(D*) = 0.271+0.010-0.010, which are consistent with the latest experimental averages. Furthermore, we perform a correlated study of the nonleptonic B0 D(*)+π- decays, calculating both factorizable and nonfactorizable amplitudes. To reduce hadronic uncertainties, we introduce and calculate the differential ratio R(*)π/(q2), defined between nonleptonic and semileptonic decay rates, providing a sensitive test of factorization and possible new physics effects. The predictions presented here can be directly tested in ongoing Belle II and LHCb experiments.

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