Two-body charmed anti-charmed baryonic B decays

Abstract

We study the rates of two-body charmed anti-charmed baryonic B Bc Bc decays using the topological amplitude approach. All amplitudes of B Bc( 3f) Bc( 3f), Bc( 6f) Bc( 3f), Bc( 3f) Bc( 6f) and Bc( 6f) Bc( 6f) decays are decomposed topologically. SU(3) breaking effects on these amplitudes, depending on the position of the s-quark line, are modeled. Using existing data as inputs, we obtained the following results. (i) In the low-lying B Bc( 3f) Bc( 3f) decays, we find that the exchange diagram is sizable. Furthermore, there is a large cancellation between internal W-tree and exchange W-tree amplitudes. The SU(3) breaking is sizable, 35% SU(3) breaking effects are needed, and they work differently in different amplitudes. The rates of B Bc( 3f) Bc( 3f) decays with some excited Bc( 3f) are also studied. (ii) The B Bc( 6f) Bc( 3f) decays, with low-lying Bc( 3f) and low-lying and some excited Bc( 6f) baryons are studied with some predictions on rates obtained. (iii) The B Bc( 3f) Bc( 6f) decays with low-lying charmed anti-charmed baryons are studied with some predictions on rates obtained. (iv) Uncertainties in most predicted rates are large, reflecting our current poor understanding of the related SU(3) breaking effects. Measuring these rates can provide very useful information about these effects.