|Vub| and Bη(') Form Factors in Covariant Light Front Approach

Abstract

B (π, η, η') transition form factors are investigated in the covariant light-front approach. With theoretical uncertainties, we find that B (π, η, η') form factors at q2=0 are f(π, η, η')+(0)=(0.245+0.000-0.001 0.011, 0.220 0.0090.009, 0.180 0.008+0.008-0.007) for vector current and f(π, η, η')T(0)=(0.239+0.002+0.020-0.003-0.018, 0.211 0.009+0.017-0.015, 0.173 0.007+0.014-0.013) for tensor current, respectively. With the obtained q2-dependent fπ+(q2) and observed branching ratio (BR) for Bd π+ , the Vub is found as |Vub|LF= (3.99 0.13)× 10-3. As a result, the predicted BRs for B (η, η') decays with =e,μ are given by (0.49+0.02+0.10-0.04- 0.07, 0.24+0.01+0.04-0.02-0.03)× 10-4, while the BRs for D- (η,η') are (11.1+0.5+0.9-0.6-0.9, 1.79+0.07+0.12-0.08-0.12)× 10-4. In addition, we also study the integrated lepton angular asymmetries for B (π,η,η')τ τ:(0.277+0.001+0.005-0.001-0.007,0.290+0.002+0.003-0.000-0.003,0.312+0.004+0.005-0.000-0.006).