The Ds-meson leading-twist distribution amplitude within the QCD sum rules and its application to the Bs Ds transition form factor

Abstract

We make a detailed study on the Ds meson leading-twist LCDA φ2;Ds by using the QCD sum rules within the framework of the background field theory. To improve the precision, its moments n 2;Ds are calculated up to dimension-six condensates. At the scale μ = 2 GeV, we obtain: 1 2;Ds= -0.261+0.020-0.020, 2 2;Ds = 0.184+0.012-0.012, 3 2;Ds = -0.111 +0.007-0.012 and 4 2;Ds = 0.075+0.005-0.005. Using those moments, the φ2;Ds is then constructed by using the light-cone harmonic oscillator model. As an application, we calculate the transition form factor fBs Ds+(q2) within the light-cone sum rules (LCSR) approach by using a right-handed chiral current, in which the terms involving φ2;Ds dominates the LCSR. It is noted that the extrapolated fBs Ds+(q2) agrees with the Lattice QCD prediction. After extrapolating the transition form factor to the physically allowable q2-region, we calculate the branching ratio and the CKM matrix element, which give B( Bs0 Ds+ ) = (2.03+0.35-0.49) × 10-2 and |Vcb|=(40.00-4.08+4.93)× 10-3.