Probing Ds*-meson longitudinal twist-2 LCDA

Abstract

In this paper, we carry on an investigation of the semileptonic decays Bs Ds* . Firstly, we derive the moments of the Ds*-meson longitudinal leading-twist light-cone distribution amplitude (LCDA) based on QCD sum rules within background field theory framework. Considering the contributions of the vacuum condensates up to dimension-six, its first ten non-zero -moments are given. Meanwhile, we construct the Ds*-meson longitudinal leading-twist LCDA by using the light-cone harmonic oscillator model. Then, using those moments, we fix the model parameters α2;Ds* and B12;Ds* by the least square method and apply them to calculate Bs Ds* transition form factors A1(q2), A2(q2) and V(q2) that are derived by using the QCD light-cone sum rules. At the large recoil region, we obtain A1(0) =0.632-0.135+0.228, A2(0) =0.706-0.092+0.109 and V(0) =0.647-0.069+0.076. Those form factors are then extrapolated to the allowed whole physical q2-region through the simplified series expansion. Finally, we obtain the branching fractions for the two decay channels Bs Ds*, i.e. B(Bs0 Ds*+e-e)=(5.45-1.57+2.15)× 10-2, B(Bs0 Ds*+μ-μ)=(5.43-1.57+2.14)× 10-2.

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