Heavy-to-light Structure Functions at O(αs3) in QCD

Abstract

We present the first complete O(αs2) and O(αs3) perturbative QCD corrections to all five heavy-to-light structure functions underlying the triple-differential semi-leptonic decay rates of heavy quarks. This is achieved via a hybrid computational strategy that combines an efficient linear interpolation (with a suitable function basis) based on stratified Gauss-Kronrod points in the leptonic-mass q2 with the differential equations in the other variable, further armed with reduced numerical -dependence. Among the selected applications, we highlight the state-of-the-art prediction (B → Xu ) = |Vub|2|3.82× 10-3|2\,( 6.53 \, 0.12 \, 0.13\, 0.03\, ) × 10-16\,GeV\, derived in the kinetic-mass scheme. We report several notable observations regarding the convergence of the first three orders of QCD corrections to the q2-spectrum and to inclusive moments of the lepton-energy spectrum in semi-leptonic weak decays of b- and c-quark in different quark-mass schemes; they are important both for improving the inclusive determinations of the relevant CKM elements, non-perturbative dynamical parameters, and for gaining new insights into the potential impact of high-order QCD corrections. Lastly we discuss a novel interesting point encountered in the consistent perturbative reformulation of the differential q2-spectrum from the pole-mass to other mass schemes: certain boundary-effect terms are identified that are non-vanishing for b → u firstly at O(αs3); their incorporation is essential to preserve the integrity of the integrated moments of the perturbatively re-expanded q2-spectrum but necessitates histogramming from O(αs3) onward even within pure perturbation theory.