A General Lower Bound for Radiative B Decay
Abstract
In a wide class of models -- including the standard model -- flavor-changing neutral currents are suppressed by an approximate chiral symmetry of the low-energy lagrangian. This symmetry allows the derivation of general relations among low-energy flavour-changing processes. We derive one such: the relative sizes of the decay rates b --> s gamma, b --> d gamma and s --> d gamma. Together with a unitarity-related lower bound on the rate for the strangeness-changing hyperon decay Omega^- --> Xi^- \gamma we obtain a reasonably model-independent lower bound for the inclusive b --> s gamma rate.
Cite
@article{arxiv.hep-ph/9205219,
title = {A General Lower Bound for Radiative B Decay},
author = {David Atwood and C. P. Burgess and A. Soni},
journal= {arXiv preprint arXiv:hep-ph/9205219},
year = {2008}
}
Comments
(Cosmetic changes: (1) an expanded discussion of the logarithmic GIM suppression, (2) typos corrected and (3) updated references.) 10 pages McGill-92/18, BNL-47586, hep-ph/9205219