Relativistic Heavy Quark Effective Action

Abstract

We study the fermion action needed to accurately describe the low energy physics of systems including heavy quarks in lattice QCD even when the heavy fermion mass m is on the order of, or larger than, the inverse lattice spacing: m 1/a. We carry out an expansion through first order in | p| a (where p is the heavy quark momentum) and all orders in ma, refining the analysis of the Fermilab and Tsukuba groups. We demonstrate that the spectrum of heavy quark bound states can be determined accurately through | p| a and (ma)n for arbitrary exponent n by using a lattice action containing only three unknown coefficients: m0, ζ and cP (a generalization of cSW), which are functions of ma. In a companion paper, we show how these three coefficients can be precisely determined using non-perturbative techniques.

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