New algorithm for classical gauge theory simulations in an expanding box

Aleksi Kurkela; Guy D. Moore

arXiv:1209.4091·hep-lat·September 20, 2012

New algorithm for classical gauge theory simulations in an expanding box

Aleksi Kurkela, Guy D. Moore

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TL;DR

This paper introduces a new algorithm for classical gauge theory simulations in expanding boxes, enabling longer simulation times and larger transverse extents without resolution loss.

Contribution

The paper presents a novel algorithm that improves the efficiency and scalability of classical gauge theory simulations in expanding geometries.

Findings

01

Allows simulations of larger transverse sizes.

02

Enables longer simulation durations.

03

Maintains lattice resolution during expansion.

Abstract

We propose a new algorithm for classical statistical simulations in scalar and gauge theories undergoing a one dimensional expansion, which allows simulations to study boxes of larger transverse extent and to continue for longer times, without losing lattice resolution in the expanding direction.

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Taxonomy

TopicsScientific Computing and Data Management · Quantum Chromodynamics and Particle Interactions · Theoretical and Computational Physics