Lattice HQET with exponentially improved statistical precision

Abstract

We introduce an alternative discretization for static quarks on the lattice retaining the O(a) improvement properties of the Eichten-Hill action. In this formulation, statistical fluctuations are reduced by a factor which grows exponentially with Euclidean time, x0. For the first time, B-meson correlation functions are computed with good statistical precision in the static approximation for x0>1 fm. At lattice spacings a ≈ 0.1 fm, a ≈ 0.08 fm and a ≈ 0.07 fm the Bs-meson decay constant is determined in static and quenched approximations. A correction due to the finite mass of the b-quark is estimated by combining these static results with a recent determination of FDs.

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