Effective Lagrangian Approach to Weak Radiative Decays of Heavy Hadrons

Abstract

Motivated by the observation of the decay B K*γ by CLEO, we have systematically analyzed the two-body weak radiative decays of bottom and charmed hadrons. There exist two types of weak radiative decays: One proceeds through the short-distance b sγ transition and the other occurs through W-exchange accompanied by a photon emission. Effective Lagrangians are derived for the W-exchange bremsstrahlung processes at the quark level and then applied to various weak electromagnetic decays of heavy hadrons. Predictions for the branching ratios of B0 D*0 γ,~b0c0γ,~b0 c0γ and b0c0γ are given. In particular, we found B(B0 D*0γ)≈ 0.9× 10-6. Order of magnitude estimates for the weak radiative decays of charmed hadrons: ~D0 K*0γ,~c++γ and c00γ are also presented. Within this approach, the decay asymmetry for antitriplet to antitriplet heavy baryon weak radiative transitions is uniquely predicted by heavy quark symmetry. The electromagnetic penguin contribution to b0γ is estimated by two different methods and its branching ratio is found to be of order 1× 10-5. We conclude that weak radiative decays of bottom hadrons are dominated by the short-distance b sγ mechanism.

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