Factorization of radiative leptonic D-meson decay with sub-leading power corrections

Abstract

In this work, we calculate the sub-leading power contributions to the radiative leptonic Dγ \, \, decay. For the first time, we provide the analytic expressions of next-to-leading power contributions and the error estimation associated with the power expansion of O( QCD/mc). In our calculation, we adopt two different models of the D-meson distribution amplitudes φD, I+ and φD, II+. Within the framework of the QCD factorization as well as the dispersion relation, we evaluate the soft contribution up to the next-to-leading logarithmic accuracy, and the higher-twist contribution from the two-particle and three-particle distribution amplitudes is also considered. Finally, we find that all the sub-leading power contributions are significant at λD(μ0)=354\, MeV, and the next-to-leading power contributions will lead to 143\% in φD, I+ and 120\% in φD, II+ corrections to leading power vector form factors with Eγ=0.5\, GeV. As the corrections from the higher-twist and local sub-leading power contributions will be enhanced with the growing of the inverse moment, it is difficult to extract an appropriate inverse moment of the D-meson distribution amplitude. The predicted branching fractions are (1.88-0.29+0.36)×10-5 for φD, I+ and (2.31-0.54+0.65)×10-5 for φD, II+, respectively.