Branching Ratios and Polarization in B-> VV,VA,AA Decays

Abstract

We present a detailed study of charmless two-body B decays into final states involving two vector mesons (VV) or two axial-vector mesons (AA) or one vector and one axial-vector meson (VA), within the framework of QCD factorization, where A is either a 3P1 or 1P1 axial-vector meson. The main results are as follows. (i) In the presence of NLO nonfactorizable corrections, effective Wilson coefficients aih are helicity dependent. For some penguin-dominated modes, the constructive (destructive) interference in the negative-helicity (longitudinal-helicity) amplitude of the B VV decay will render the former comparable to the latter and push up the transverse polarization. (ii) In QCD factorization, the transverse polarization fraction can be large for penguin-dominated charmless VV modes by allowing for sizable penguin annihilation contributions. (iii) Using the measured K*0- channel as an input, we predict the branching ratios and polarization fractions for other B K* decays. (iv) The smallness of the axial-vector decay constant of the 1P1 axial vector meson can be tested by measuring various b1 modes to see if ( B0 b1-+) ( B0 b1+-) and (B- b1-0) (B- b10-). (v) For the penguin-dominated modes a1K* and b1K*, it is found that the former are dominated by transverse polarization amplitudes, whereas the latter are governed by longitudinal polarization states.