Properties of the ηq leading-twist distribution amplitude and its effects to the B/D+ η()+ decays

Abstract

The η()-mesons in the quark-flavor basis are mixtures of two mesonic states |ηq=| u u+ d d/ 2 and |ηs=| s s. In the previous work, we have made a detailed study on the ηs leading-twist distribution amplitude. As a sequential work, in the present paper, we fix the ηq leading-twist distribution amplitude by using the light-cone harmonic oscillator model for its wave function and by using the QCD sum rules within the QCD background field to calculate its moments. The input parameters of ηq leading-twist distribution amplitude φ2;ηq at an initial scale μ0 1 GeV are then fixed by using those moments. The sum rules for the 0 th-order moment can also be used to fix the magnitude of ηq decay constant, which gives fηq=0.1410.005 GeV. As an application of the present derived φ2;ηq, we calculate the transition form factors B(D)+ η() by using the QCD light-cone sum rules up to twist-4 accuracy and by including the next-to-leading order QCD corrections to the twist-2 part, and then fix the related CKM matrix element and the decay width for the semi-leptonic decays B(D)+ η()+ .