D P(π,K) helicity form factors within light-cone sum rule approach

Abstract

In this paper, the D P(π, K) helicity form factors (HFFs) are studied by applying the QCD light-cone sum rule (LCSR) approach. The calculation accuracy is up to next-to-leading order (NLO) gluon radiation correction of twist-(2,3) distribution amplitude. The resultant HFFs at large recoil point are Pt,0π(0) = 0.688+0.020-0.024, Pt,0K(0)=0.780+0.024-0.029. In which, the contributions from three particles of the leading order (LO) are so small that can be safely neglected, and the maximal contribution of the NLO gluon radiation correction for Pt,0π,K(0) is less than 3\%. After extrapolating the LCSR predictions for these HFFs to whole q2-region, we obtain the decay widths for semileptonic decay processes D P, which are consistent with BES-III collaboration predictions within errors. After considering the D+/D0-meson lifetime, we give the branching fractions of D P with = e, μ, our predictions also agree with BES-III collaboration within errors, especially for D π decay process. Finally, we present the forward-backward asymmetry A FB(q2) and lepton convexity parameter CF(q2), and further calculate the mean value of these two observations A FB and CF, which may provide a way to test those HFFs in future experiments.