Footprint in fitting B D vector form factor and determination for D-meson leading-twist LCDA

Abstract

In this paper, we fit the B D vector transition form factor (TFF) by using the data measured by BABAR and Belle Collaborations within Monte Carlo (MC) method. Meanwhile, the B D TFF is also calculated by using the QCD light-cone sum rules approach (LCSRs) within right-handed chiral current correlation function. In the TFF, D-meson leading-twist light-cone distribution amplitude (LCDA) is the most important non-perturbative input parameter, the precise behavior of which is mainly determined by the parameter B2;D in the light-cone harmonic oscillator model. Through fitting the TFF, we determine the value B2;D=0.445. Then, we present the curve of D-meson leading-twist LCDA in comparison with other theoretical approaches. Subsequently, the B D TFF f+BD(q2) at the large recoil region is f+BD(0)=0.648-0.063+0.067, which is compared in detail with theoretical estimates and experimental measurements. Furthermore, we calculated the decay width and branching fractions of the Cabibbo-favored semileptonic decays B D+, which lead to the results B(B0 D- + ) =(2.10-0.38+0.44)× 10-2 and B(B+ D0 + ) =(2.26-0.41+0.48)× 10-2. Finally, we predict the CKM matrix element with two scenarios |Vcb| SR=41.55-4.50+4.91× 10-3 and |Vcb | MC=41.47-2.66+2.55 × 10-3 from B0 D-+, |Vcb| SR=40.54-3.80+4.33× 10-3 and |Vcb | MC=40.46-1.38+1.40× 10-3 from B+ D0+ which are in good agreement with theoretical and experimental predictions.