Non-perturbatively Determined Relativistic Heavy Quark Action
Abstract
We present a method to non-perturbatively determine the parameters of the on-shell, O(a)-improved relativistic heavy quark action. These three parameters, m0, ζ, and cB=cE are obtained by matching finite-volume, heavy-heavy and heavy-light meson masses to the exact relativistic spectrum through a finite-volume, step-scaling recursion procedure. We demonstrate that accuracy on the level of a few percent can be achieved by carrying out this matching on a pair of lattices with equal physical spatial volumes but quite different lattice spacings. A fine lattice with inverse lattice spacing 1/a=5.4 GeV and 243 × 48 sites and a coarse, 1/a=3.6 GeV, 163 × 32 lattice are used together with a heavy quark mass m approximately that of the charm quark. This approach is unable to determine the initially expected, four heavy-quark parameters: m0, ζ, cB and cE. This apparent non-uniqueness of these four parameters motivated the analytic result, presented in a companion paper, that this set is redundant and that the restriction cE=cB is permitted through order a| p| and to all orders in m a where p is the heavy quark's spatial momenta.
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