Approaches to inclusive semileptonic B(s)-meson decays from Lattice QCD
Alessandro Barone, S. Hashimoto, Andreas Jüttner, T. Kaneko, Ryan Kellermann
Abstract
A bstract We address the nonperturbative calculation of the inclusive decay rate of semileptonic B ( s ) -meson decays from lattice QCD. Precise Standard-Model predictions are key ingredients in searches for new physics, and this type of computation may eventually provide new insight into the long-standing tension between the inclusive and exclusive determinations of the Cabibbo-Kobayashi-Maskawa (CKM) matrix elements | V cb | and | V ub |. We present results from a pilot lattice computation for B s → X c lν l , where the initial b quark described by the relativistic-heavy-quark (RHQ) formalism on the lattice and the other valence quarks discretised with domain-wall fermions are simulated approximately at their physical quark masses. We compare two different methods for computing the decay rate from lattice data of Euclidean n -point functions, namely Chebyshev and Backus-Gilbert approaches. We further study how much the ground-state meson dominates the inclusive decay rate and indicate our strategy towards a computation with a more comprehensive systematic error budget.