High-Precision fBs and HQET from Relativistic Lattice QCD

Abstract

We present a new determination of the Bs leptonic decay constant from lattice QCD simulations that use gluon configurations from MILC and a highly improved discretization of the relativistic quark action for both valence quarks. Our result, fBs = 0.225(4)\,GeV, is almost three times more accurate than previous determinations. We analyze the dependence of the decay constant on the heavy quark's mass and obtain the first empirical evidence for the leading 1/mh dependence predicted by Heavy Quark Effective Theory (HQET). As a check, we use our analysis technique to calculate the mBs-mηb/2 mass difference. Our result agrees with experiment to within errors of 11\,MeV (better than 2%). We discuss how to extend our analysis to other quantities in Bs and B physics, making 2%-precision possible for the first time.