Hadronic decays of B a1(1260) b1(1235) in the perturbative QCD approach

Abstract

We calculate the branching ratios and polarization fractions of the B a1 b1 decays in the perturbative QCD(pQCD) approach at leading order, where a1(b1) stands for the axial-vector a1(1260)[b1(1235)] state. By combining the phenomenological analyses with the perturbative calculations, we find the following results: (a) the large decay rates around 10-5 to 10-6 of the B a1 b1 decays dominated by the longitudinal polarization(except for the B+ b1+ a10 mode) are predicted and basically consistent with those in the QCD factorization(QCDF) within errors, which are expected to be tested by the Large Hadron Collider and Belle-II experiments. The large B0 a10 b10 branching ratio could provide hints to help explore the mechanism of the color-suppressed decays. (b) the rather different QCD behaviors between the a1 and b1 mesons result in the destructive(constructive) contributions in the nonfactorizable spectator diagrams with a1(b1) emission. Therefore, an interesting pattern of the branching ratios appears for the color-suppressed B0 a10 a10, a10 b10, and b10 b10 modes in the pQCD approach, Br(B0 b10 b10) > Br(B0 a10 b10) Br(B0 a10 a10), which is different from Br(B0 b10 b10) Br(B0 a10 b10) Br(B0 a10 a10) in the QCDF and would be verified at future experiments. (c) the large naive factorization breaking effects are observed in these B a1 b1 decays. Specifically, the large nonfactorizable spectator(weak annihilation) amplitudes contribute to the B0 b1+ a1-(B+ a1+ b10\; and\; B+ b1+ a10) mode(s), which demand confirmations via the precise measurements.