Abstract
The $O(\alpha)$ electromagnetic radiative corrections to the $B^- \rightarrow V^0 \ell^- \bar{\nu}_{\ell}$ ($V$ is a vector meson and $\ell$ a charged lepton) decay rates are evaluated using the cutoff method to regularize virtual corrections and incorporating intermediate resonance states in the real-photon amplitude to extend the region of validity of the soft-photon approximation. The electromagnetic and weak form factors of hadrons are assumed to vary smoothly over the energies of virtual and real photons under consideration. The cutoff dependence of radiative corrections upon the scale $\Lambda$ that separates the long- and short-distance regimes is found to be mild and is considered as an uncertainty of the calculation. Owing to partial cancellations of electromagnetic corrections evaluated over the three- and four-body regions of phase space, the photon-inclusive corrected rates are found to be dominated by the short-distance contribution. These corrections will be relevant for a precise determination of the $b$ quark mixing angles by testing isospin symmetry when measurements of semileptonic rates of charged and neutral $B$ mesons at the few percent level become available. For completeness, we also provide numerical values of radiative corrections in the three-body region of the Dalitz plot distributions of these decays.
Highlights
Several leptonic and semileptonic exclusive decays induced by the b → u ν transition can be used to extract |Vub| in an independent way
When compared to the most precise determination from inclusive b → u ν transitions one is led to discrepant results |Vub| = |Vub|incl − |Vub|excl = (1.13 ± 0.36) × 10−3 [3], with errors added in quadrature
In the full range of q2 values, the LD radiative corrections turned out to be rather insensitive to these two different models for the form factors; we will assign an uncertainty due to the numerical evaluation and to account for the different yields obtained by using the above parametrizations for the form factors
Summary
Several leptonic and semileptonic exclusive decays induced by the b → u ν transition can be used to extract |Vub| in an independent way. An important limitation in the attempts to compute those radiative corrections has to do with the poor knowledge of the photon-meson interactions at wavelength in the transition between the long- and short-distance regimes Most of these calculations, as well as the present one, suffer from limitations related to the used approximations, which may be well justified for light mesons and baryons but not necessarily for B mesons. Reference [56] has found that the long-distance corrections to the ratio Rτ/π ≡ (τ → π ν)/ (π → μν) computed in the scalar QED approximation using a scale μcut to cut the integration over virtual photons differs from the improved calculation that include resonances by less than 0.4 %.
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