Exclusive semileptonic B π and Bs K decays through unitarity and lattice QCD

Abstract

The Cabibbo-Kobayashi-Maskawa (CKM) matrix element Vub is obtained from exclusive semileptonic B π and Bs K decays adopting the unitarity-based dispersion matrix approach for the determination of the hadronic form factors (FFs) in the whole kinematical range. We use lattice computations of the relevant susceptibilities and of the FFs in the large-q2 regime in order to derive their behavior in the low-q2 region without assuming any specific momentum dependence and without constraining their shape using experimental data. Then, we address the extraction of Vub from the experimental data, obtaining Vub = (3.62 0.47) · 10-3 from B π and Vub = (3.77 0.48) · 10-3 from Bs K, which after averaging yield Vub = (3.69 0.34) · 10-3. These results are compatible with the most recent inclusive value Vub incl = 4.13\,(26) · 10-3 at the 1σ level. We also present purely theoretical estimates of the ratio of the τ/μ decay rates Rτ/μπ(K), the normalized forward-backward asymmetry AFB,π(K) and the normalized lepton polarization asymmetry Apolar,π(K).