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Towards glueball masses of large-N SU(N) pure-gauge theories without topological freezing

Claudio Bonanno Orcid Logo, Massimo D'Elia, Biagio Lucini Orcid Logo, Davide Vadacchino

Physics Letters B, Volume: 833, Start page: 137281

Swansea University Author: Biagio Lucini Orcid Logo

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DOI (Published version): 10.1016/j.physletb.2022.137281

Abstract

In commonly used Monte Carlo algorithms for lattice gauge theories the integrated autocorrelation time of the topological charge is known to be exponentially-growing as the continuum limit is approached. This topological freezing, whose severity increases with the size of the gauge group, can result...

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Published in: Physics Letters B
ISSN: 0370-2693
Published: Elsevier BV 2022
Online Access: Check full text

URI: https://cronfa.swan.ac.uk/Record/cronfa60425
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Abstract: In commonly used Monte Carlo algorithms for lattice gauge theories the integrated autocorrelation time of the topological charge is known to be exponentially-growing as the continuum limit is approached. This topological freezing, whose severity increases with the size of the gauge group, can result in potentially large systematics. To provide a direct quantification of the latter, we focus on Yang–Mills theory at a lattice spacing for which conventional methods associated to the decorrelation of the topological charge have an unbearable computational cost. We adopt the recently proposed parallel tempering on boundary conditions algorithm, which has been shown to remove systematic effects related to topological freezing, and compute glueball masses with a typical accuracy of . We observe no sizeable systematic effect in the mass of the first lowest-lying glueball states, with respect to calculations performed at nearly-frozen topological sector.
Keywords: Glueball masses; Large-N; Topological freezing
College: Faculty of Science and Engineering
Funders: STFC, Leverhulme Trust, Royal Society, ERC, Simons Foundation
Start Page: 137281

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