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 at leading twist. QCD factorization for the 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 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 . Furthermore, we evaluate the sub-leading power contribution to the form factors from the three-particle -meson distribution amplitudes (DAs) at tree level. The soft contribution to the form factors from the three-particle -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 form factors will induce an approximately shift to the tree-level contribution at . Albeit of power suppression parametrically, the soft two-particle correction can decrease the leading power predictions for the form factors by an amount of with the same value of . Employing the phenomenological model of the three-particle -meson DAs inspired by a QCD sum rule analysis, the three-particle contribution to the form factors is predicted to be of , at leading order in , with the default theory inputs.
Cite
@article{arxiv.1606.03080,
title = {Factorization and dispersion relations for radiative leptonic $B$ decay},
author = {Yu-Ming Wang},
journal= {arXiv preprint arXiv:1606.03080},
year = {2016}
}
Comments
32 pages, 9 figures