Quarkonia and the Pole Mass

A. H. Hoang; M. C. Smith; T. Stelzer; S. Willenbrock

Quarkonia and the Pole Mass

A. H. Hoang, M. C. Smith, T. Stelzer, S. Willenbrock

Abstract

The pole mass of a heavy quark is ambiguous by an amount of order $Λ_{QCD}$. We show that the heavy-quark potential, $V(r)$, is similarly ambiguous, but that the total static energy, $2M_{pole}+V(r)$, is unambiguous when expressed in terms of a short-distance mass. This implies that the extraction of a short-distance mass from the quarkonium spectrum is free of an ambiguity of order $Λ_{QCD}$, in contrast with the pole mass.

Quarkonia and the Pole Mass

Abstract

The pole mass of a heavy quark is ambiguous by an amount of order

. We show that the heavy-quark potential,

, is similarly ambiguous, but that the total static energy,

, is unambiguous when expressed in terms of a short-distance mass. This implies that the extraction of a short-distance mass from the quarkonium spectrum is free of an ambiguity of order

, in contrast with the pole mass.

Quarkonia and the Pole Mass

Abstract

Quarkonia and the Pole Mass

Abstract

Paper Structure

Table of Contents