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Progress on the spectroscopy of lattice gauge theories using spectral densities

Maurizio Piai Orcid Logo, Ed Bennett Orcid Logo, Luigi Del Debbio Orcid Logo, Niccolo Forzano, Ryan C. Hill Orcid Logo, Deog Ki Hong Orcid Logo, Ho Hsiao Orcid Logo, Jong-Wan Lee Orcid Logo, C.-J. David Lin Orcid Logo, Biagio Lucini Orcid Logo, Alessandro Lupo Orcid Logo, Davide Vadacchino Orcid Logo, Fabian Zierler

Lattice2024

Swansea University Authors: Maurizio Piai Orcid Logo, Ed Bennett Orcid Logo, Niccolo Forzano, Biagio Lucini Orcid Logo, Fabian Zierler

Abstract

Spectral densities encode non-perturbative information crucial in computing physical observables in strongly coupled field theories. Using lattice gauge theory data, we perform a systematic study to demonstrate the potential of recent technological advances in the reconstruction of spectral densitie...

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Published in: Lattice2024
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URI: https://cronfa.swan.ac.uk/Record/cronfa68043
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Abstract: Spectral densities encode non-perturbative information crucial in computing physical observables in strongly coupled field theories. Using lattice gauge theory data, we perform a systematic study to demonstrate the potential of recent technological advances in the reconstruction of spectral densities. We develop, maintain and make publicly available dedicated analysis code that can be used for broad classes of lattice theories. As a test case, we analyse the (4) gauge theory coupled to an admixture of fermions transforming in the fundamental and two-index antisymmetric representations. We measure the masses of mesons in energy-smeared spectral densities, after optimising the smearing parameters for available lattice ensembles. We present a summary of the mesons mass spectrum in all the twelve (flavored) channels available, including also several excited states.
College: Faculty of Science and Engineering