Two-body Baryonic Bu,d,s and Bc to Charmless Final State Decays

Abstract

We study the rates and direct CP violations of two-body baryonic Bu,d,s B B' and B-c B B' decays, where the final state baryons include low-lying octet and decuplet baryons. We incorporate topological amplitude formalism and the factorization approach. Asymptotic relations at large mb are used to simplify decay amplitudes. Using the most up-to-date data on B0 p p and B- p decay rates as inputs, rates and direct CP violations of Bu,d,s B B' decays are revised and predicted. It is interesting that the results on rates satisfy all existing experimental bounds and some are close to the bounds. Factorization diagrams contribute to penguin-exchange, exchange, annihilation and penguin-annihilation amplitudes. Although the resulting penguin-exchange factorization amplitudes are sizable, the rest suffer from severe chiral suppression and are sensitive to non-factorizable contributions. The Bs p p decay rate predicted in factorization calculation is very rare, but it can be enhanced by including non-factorizable contributions. The case where the rate is enhanced to saturate the present experimental bound is discussed. As annihilation modes B-c B B' decays from factorization calculation are found to be very rare, but they can be enhanced by including non-factorizable contributions as well. Small direct CP violations of pure penguin modes in S=-1 Bu,d,s B B' decays are robust predictions of the SM, while vanishing direct CP violations of exchange modes in Bu,d,s B B' decays and in all B-c B B' decay modes are null tests of the SM.

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