Factorization and dispersion relations for radiative leptonic B decay

Abstract

Applying the dispersion approach we compute perturbative QCD corrections to the power suppressed soft contribution of B γ at leading twist. QCD factorization for the B γ form factors is demonstrated explicitly for the hard-collinear transverse polarized photon at one loop, with the aid of the method of regions. While the one-loop hard function is identical to the matching coefficient of the QCD weak current u \, γμ \, (1- γ5) \, b in soft-collinear effective theory, the jet function from integrating out the hard-collinear fluctuations differs from the corresponding one entering the factorization formula of B γ . Furthermore, we evaluate the sub-leading power contribution to the B γ form factors from the three-particle B-meson distribution amplitudes (DAs) at tree level. The soft contribution to the B γ form factors from the three-particle B-meson DAs is shown to be of the same power compared with the corresponding hard correction, in contrast to the two-particle counterparts. Numerically the next-to-leading-order QCD correction to the soft two-particle contribution in B γ form factors will induce an approximately (10 20 ) \% shift to the tree-level contribution at λB(μ0)=354 \, MeV. Albeit of power suppression parametrically, the soft two-particle correction can decrease the leading power predictions for the B γ form factors by an amount of (10 30 ) \% with the same value of λB(μ0). Employing the phenomenological model of the three-particle B-meson DAs inspired by a QCD sum rule analysis, the three-particle contribution to the B γ form factors is predicted to be of O (1 \%), at leading order in αs, with the default theory inputs.