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Autores principales: Konrad, Christoph, Philipsen, Owe
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2509.03172
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author Konrad, Christoph
Philipsen, Owe
author_facet Konrad, Christoph
Philipsen, Owe
contents Numerical studies of the QCD phase diagram at finite baryon chemical potential $μ_B$ on the lattice are impeded by a sign problem. Effective Polyakov loop theories derived from lattice QCD via combined strong-coupling and hopping expansions are valid for heavy quarks only, but tractable with a significantly less severe sign problem. In this work, we apply three mean-field approximations to these effective theories, each incorporating local fluctuations to different degrees. We compare their predictions against Monte Carlo results for the deconfinement transition at high temperatures and for the baryon onset transition at low temperatures. In agreement with earlier effective theory simulations, we find a first-order nuclear liquid-gas transition with a critical end point for very low temperatures and moderately heavy quarks. While the location of fluctuation-dominated critical end points is expectedly inaccurate, the phase diagram of lattice QCD with heavy quarks can be determined qualitatively with entirely analytical methods.
format Preprint
id arxiv_https___arxiv_org_abs_2509_03172
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle From deconfinement to nuclear matter: mean-field approaches for effective Polyakov loop theories of lattice QCD
Konrad, Christoph
Philipsen, Owe
High Energy Physics - Lattice
Numerical studies of the QCD phase diagram at finite baryon chemical potential $μ_B$ on the lattice are impeded by a sign problem. Effective Polyakov loop theories derived from lattice QCD via combined strong-coupling and hopping expansions are valid for heavy quarks only, but tractable with a significantly less severe sign problem. In this work, we apply three mean-field approximations to these effective theories, each incorporating local fluctuations to different degrees. We compare their predictions against Monte Carlo results for the deconfinement transition at high temperatures and for the baryon onset transition at low temperatures. In agreement with earlier effective theory simulations, we find a first-order nuclear liquid-gas transition with a critical end point for very low temperatures and moderately heavy quarks. While the location of fluctuation-dominated critical end points is expectedly inaccurate, the phase diagram of lattice QCD with heavy quarks can be determined qualitatively with entirely analytical methods.
title From deconfinement to nuclear matter: mean-field approaches for effective Polyakov loop theories of lattice QCD
topic High Energy Physics - Lattice
url https://arxiv.org/abs/2509.03172