Extraction of HQE parameters from unquenched lattice data on pseudoscalar and vector heavy-light meson masses

Abstract

We present a precise lattice computation of pseudoscalar and vector heavy-light meson masses for heavy-quark masses ranging from the physical charm mass up to 4 times the physical b-quark mass. We employ the gauge configurations generated by the European Twisted Mass Collaboration (ETMC) with Nf = 2+1+1 dynamical quarks at three values of the lattice spacing (a 0.062, 0.082, 0.089 fm) with pion masses in the range Mπ 210 - 450 MeV. The heavy-quark mass is simulated directly on the lattice up to 3 times the physical charm mass. The interpolation to the physical b-quark mass is performed using the ETMC ratio method, based on ratios of the meson masses computed at nearby heavy-quark masses, and adopting the kinetic mass scheme. The extrapolation to the physical pion mass and to the continuum limit yields mb kin(1~GeV) = 4.61 (20) GeV, which corresponds to mb(mb) = 4.26 (18) GeV in the MS scheme. The lattice data are analyzed in terms of the Heavy Quark Expansion (HQE) and the matrix elements of dimension-4 and dimension-5 operators are extracted with a good precision, namely: = 0.552 (26) GeV, μπ2 = 0.321 (32) GeV2 and μG2(mb) = 0.253 (25) GeV2. The data also allow for a rough estimate of the dimension-6 operator matrix elements. As the HQE parameters play a crucial role in the inclusive determination of the Cabibbo-Kobayashi-Maskawa matrix elements Vub and Vcb, their precise determination on the lattice may eventually validate and improve the analyses based on fits to the semileptonic moments.