B transition form factors within the QCD light-cone sum rules and the -meson leading-twist distribution amplitude

Abstract

The QCD light-cone sum rules (LCSR) provides an effective way for dealing with the heavy-to-light transition form factors (TFFs), whose non-perturbative dynamics are parameterized into the light-meson's light-cone distribution amplitudes (LCDAs) with various twist structures. By taking the chiral correlator as the starting point, we calculate the LCSRs for the B TFFs up to twist-4 accuracy. As for the TFFs at the large recoil region, we observe that the twist-2 transverse DA φ2; provides the dominant contribution, while the contributions from the remaining twist-3 and twist-4 terms are δ2-suppressed. Thus, our present improved LCSRs provides a good platform for testing the φ2; behavior. For the purpose, we suggest a convenient WH-model for the -meson leading-twist wavefunction, in which the parameter B2; a2 dominantly controls its longitudinal distribution. Typically, its DA φ2; is CZ-like as B2;-0.20, which changes to be asymptotic-like as B2;0.00. By varying B2;∈[-0.20,0.20], we present a detailed comparison of the LCSR estimation for the B TFFs with those of pQCD and Lattice QCD predictions. Furthermore, by using the extrapolated TFFs, we estimate the CKM-matrix element |V ub| with the help of two B semi-leptonic decays. The predicted value for |V ub| increases with the increment of B2;, i.e. we have =(2.910.19)× 10-3 for B2;=-0.20 and =(3.110.19)× 10-3 for B2;=0.00. If using the BABAR prediction as a criteria, we observe that B2;∈[-0.2,0.10], which indicates that the -meson DA φ2; prefers a single-peak behavior rather than a double-humped behavior.