Stability of lattice QCD simulations and the thermodynamic limit

L. Del Debbio; L. Giusti; M. Lüscher; R. Petronzio; N. Tantalo

Stability of lattice QCD simulations and the thermodynamic limit

L. Del Debbio, L. Giusti, M. Lüscher, R. Petronzio, N. Tantalo

Abstract

We study the spectral gap of the Wilson--Dirac operator in two-flavour lattice QCD as a function of the lattice spacing $a$, the space-time volume $V$ and the current-quark mass $m$. It turns out that the median of the probability distribution of the gap scales proportionally to $m$ and that its width is practically equal to $a/\sqrt{V}$. In particular, numerical simulations are safe from accidental zero modes in the large-volume regime of QCD.

Stability of lattice QCD simulations and the thermodynamic limit

Abstract

We study the spectral gap of the Wilson--Dirac operator in two-flavour lattice QCD as a function of the lattice spacing

, the space-time volume

and the current-quark mass

. It turns out that the median of the probability distribution of the gap scales proportionally to

and that its width is practically equal to

. In particular, numerical simulations are safe from accidental zero modes in the large-volume regime of QCD.

Stability of lattice QCD simulations and the thermodynamic limit

Abstract

Stability of lattice QCD simulations and the thermodynamic limit

Abstract

Paper Structure

Table of Contents