Investigating Ds+ π0 + decay process within QCD sum rule approach

Abstract

In this paper, the semileptonic decays Ds+ π0+ with =(e,μ) are investigated by using the light-cone sum rule approach. Firstly, the neutral meson mixing scheme between π0, η, η and pseudoscalar gluonium G is discussed in a unified way, which leads to the direct connection between two different channels for Ds+ π0+ and Ds+ η+ by the π0-η mixing angle. Then we calculated the Ds π0 transition form factors (TFFs) within QCD light-cone sum rule approach up to next-to-leading order correction. At the large recoil point, we have f+Ds+π0(0)=0.0113-0.0019+0.0024 and f-Ds+π0(0)=0.0020-0.0009+0.0008. Furthermore, the TFFs are extrapolated to the whole physical q2-region by using the simplified z(q2)-series expansion. The behaviors of TFFs and related three angular coefficient functions aθ(q2), bθ(q2) and cθ(q2) are given. The differential decay widths for Ds+ π0+ with respect to q2 and θ are presented, and also lead to the branching fractions B(Ds+ π 0e+e) =2.60-0.51+0.57× 10-5 and B(Ds+ π 0μ+ μ )= 2.58-0.51+0.56× 10-5. These results show well agreement with the recent BESIII measurements and theoretical predictions. Then the differential distributions and integrated predictions for three angular observables, i.e. forward-backward asymmetries, q2-differential flat terms and lepton polarization asymmetries are given separately. Lastly, we estimate the ratio for different decay channels Rπ 0/η=1.108-0.071+0.039× 10-3.