Pad\'e approximants to Bπ and Bs K and determination of |Vub|
Abstract
In light of the first observation of the semileptonic decay B0s K-μ+μ by the LHCb collaboration, we revisit the determination of the CKM parameter |Vub| from exclusive semileptonic B-meson decays. A controlled theoretical input on the Standard Model Bπ and Bs K vector and scalar form factors from Lattice QCD in the large q2 region, in combination with experimental measurements of the differential Bπ and B0s K-μ+μ branching ratio distributions, has allowed us determine |Vub|=3.86(11)×10-3 and |Vub|=3.58(9)×10-3 from the analyses of the individual decay channels, respectively, and |Vub|=3.68(5)×10-3 from a simultaneous analysis of both decays, which is only a 1.4\% error and differs by 1.8σ with respect to the value from inclusive determinations |Vub|=4.25(12)+15-14(23)×10-3. Our results are based on the use of Pad\'e approximants to the participating form factors, highlight the importance of the decay Bs Kμμ in complementing the traditional Bπ one in the exclusive determination of |Vub|, and allow obtain, to the best of our knowledge, the first correlated results for the Bπ and Bs K vector and scalar form factors. We hope that our study strengthens the case for precise measurements of the differential Bs K decay rate with a finer resolution of the q2 bins, as it would definitely allow achieving more conclusive results for |Vub|.
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