Next-to-Leading Order QCD Corrections to b p Form Factors from Light-Cone Sum Rules

Abstract

In this study, we compute the radiative corrections to the b p transition form factors at next-to-leading logarithmic accuracy, employing the framework of QCD light-cone sum rules with the light-cone distribution amplitudes of the b baryon. The factorization formulae of the vacuum-to-b correlation function, constructed from the interpolating current for the proton, are derived at leading power in mp / m_b, using the method of regions. With our specific choice of interpolating current, only the twist-4 distribution amplitude of the b baryon contributes to the form factors. Numerically, we find that the next-to-leading order QCD perturbative corrections reduce the tree-level form factors to approximately 65\% of their original value, with the next-to-leading-order jet function providing the dominant contribution. In the large-energy limit (Ep ∞), the form factors exhibit a clear 1/Ep3 scaling, consistent with the expected power-counting behavior. By applying the z-series parameterization to perform a combined fit of the form factors from our results and available lattice QCD simulations, we further investigate the decay rate of b p - and extract the CKM matrix element |Vub| = (3.33 0.43 ) × 10-3.