Triple Differential Heavy-to-light Semi-leptonic Decays at Next-to-Next-to-Next-to-Leading Order in QCD

Abstract

We report the first complete calculation of the five heavy-to-light hadronic structure functions underlying semi-leptonic heavy-quark decays at next-to-next-to-next-to-leading order (O(αs3)) in perturbative QCD. This theoretical advance, achieved via an innovative hybrid computational strategy, enables precision predictions for triple differential decay rates. The results are essential for harnessing the potential of high-precision experiments at Belle II, BES III, and LHCb. Selected applications of this work include a state-of-the-art prediction for the inclusive B Xu width, crucial for a percent-level determination of |Vub|, and the first O(αs3) results for lepton-energy moments in charm decays, vital for extracting |Vcs| and |Vcd|. Our analysis also reveals significant higher-order corrections in the large-q2 region of b u transitions, offering new insights into the persistent tension between inclusive and exclusive |Vub| determinations.