The monopole mass in the random percolation gauge theory

Pietro Giudice; Ferdinando Gliozzi; Stefano Lottini

arXiv:0811.2722·hep-lat·February 5, 2009

The monopole mass in the random percolation gauge theory

Pietro Giudice, Ferdinando Gliozzi, Stefano Lottini

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TL;DR

This paper investigates the monopole mass in a (2+1)-dimensional lattice gauge theory related to percolation, using Monte Carlo simulations to analyze its behavior across the critical temperature.

Contribution

It introduces a high-precision Monte Carlo approach to evaluate monopole mass in a gauge theory dual to percolation, across different temperature regimes.

Findings

01

Monopole mass behavior changes across the critical temperature.

02

High-precision measurements of monopole properties are achieved.

03

The study leverages statistical system correspondences for analysis.

Abstract

We study the behaviour of the monopole at finite temperature in the (2+1)-dimensional lattice gauge theory dual to the percolation model; by exploiting the correspondences to statistical systems, we possess powerful tools to evaluate the monopole mass both above and below the critical temperature with high-precision Monte Carlo simulations.

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Taxonomy

TopicsQuantum Chromodynamics and Particle Interactions · Theoretical and Computational Physics · Stochastic processes and statistical mechanics