What can we learn from B a1(1260)(b1(1235))π(K) decays?

Abstract

We investigate the B a1(1260)(b1(1235))π(K) decays under the factorization scheme and find many discrepancies between theoretical predictions and the experimental data. In the tree dominated processes, large contributions from color-suppressed tree diagrams are required in order to accommodate with the large decay rates of B- a10π- and B- a1-π0. For B0 (a1+, b1+)K- decays which are both induced by b s transition, theoretical predictions on their decay rates are larger than the data by a factor of 2.8 and 5.5, respectively. Large electro-weak penguins or some new mechanism are expected to explain the branching ratios of B- b10K- and B- a1- K0. The soft-collinear-effective-theory has the potential to explain large decay rates of B- a10π- and B- a1-π0 via a large hard-scattering form factor ζJB a1. We will also show that, with proper charming penguins, predictions on the branching ratios of B0 (a1+, b1+)K- can also be consistent with the data.