Uncertainties of the B D transition form factor from the D-Meson Leading-Twist Distribution Amplitude

Abstract

The B D transition form factor (TFF) fB D+(q2) is determined mainly by the D-meson leading-twist distribution amplitude (DA) , φ2;D, if the proper chiral current correlation function is adopted within the light-cone QCD sum rules. It is therefore significant to make a comprehensive study of DA φ2;D and its impact on fB D+(q2). In this paper, we calculate the moments of φ2;D with the QCD sum rules under the framework of the background field theory. New sum rules for the leading-twist DA moments <n>D up to fourth order and up to dimension-six condensates are presented. At the scale μ = 2 GeV, the values of the first four moments are: <1>D = -0.418+0.021-0.022, <2>D = 0.289+0.023-0.022, <3>D = -0.178 0.010 and <4>D = 0.142+0.013-0.012. Basing on the values of <n>D(n=1,2,3,4), a better model of φ2;D is constructed. Applying this model for the TFF fB D+(q2) under the light cone sum rules, we obtain fB D+(0) = 0.673+0.038-0.041 and fB D+(q2 max) = 1.124+0.053-0.058. The uncertainty of fB D+(q2) from φ2;D is estimated and we find its impact should be taken into account, especially in low and central energy region. The branching ratio B(B Dll) is calculated, which is consistent with experimental data.