The NLO twist-3 contributions to B π form factors in kT factorization

Abstract

In this paper, we calculate the next-to-leading-order (NLO) twist-3 contribution to the form factors of B π transitions by employing the kT factorization theorem. All the infrared divergences regulated by the logarithms (kiT2) cancel between those from the quark diagrams and from the effective diagrams for the initial B meson wave function and the final pion meson wave function. An infrared finite NLO hard kernel is therefore obtained, which confirms the application of the kT factorization theorem to B meson semileptonic decays at twist-3 level. From our analytical and numerical evaluations, we find that the NLO twist-3 contributions to the form factors f+,0(q2) of B π transition are similar in size, but have an opposite sign with the NLO twist-2 contribution, which leads to a large cancelation between these two NLO parts. For the case of f+(0), for example, the 24\% NLO twist-2 enhancement to the full LO prediction is largely canceled by the negative ( about -17\% ) NLO twist-3 contribution, leaving a small and stable 7\% enhancement to the full LO prediction in the whole range of 0≤ q2≤ 12 GeV2. At the full NLO level, the perturbative QCD prediction is FB π(0)=0.269+0.054-0.050. We also studied the possible effects on the pQCD predictions when different sets of the B meson and pion distribution amplitudes are used in the numerical evaluation.