Self-consistent light-front quark model analysis of B D transition form factors

Abstract

We investigate the transition form factors f+(q2) and f-(q2) [or f0(q2)] for the exclusive semileptonic B D (=e, μ,τ) decays in the standard light-front quark model (LFQM) based on the LF quantization. The common belief is that while f+(q2) can be obtained without involving any treacherous contributions such as the zero mode and the instantaneous contribution, f-(q2) receives those treacherous contributions since it involves at least two components of the current, e.g. (J+, J-) or (J+, J). Contrary to the common belief, we show in the Drell-Yan (q+=0) frame that f-(q2) obtained from (J+, J-) gives identical result to f-(q2) obtained from (J+, J) without involving such treacherous contributions in the standard LFQM. In our numerical calculations, we obtain the form factors and branching ratios for B D (=e, μ,τ) and compare with the experimental data as well as other theoretical model predictions. Our results for Br(B D) show reasonable agreement with the experimental data except for the semitauonic B0 D-ττ decay. The ratio R(D)= Br(B Dττ) Br(B D'') ('=e,μ) is also estimated and compared with the experimental data as well as other theoretical predictions.