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Main Authors: Cardoso, Gabriel, Stéphan, Jean-Marie, Abanov, Alexander G.
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2412.15345
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author Cardoso, Gabriel
Stéphan, Jean-Marie
Abanov, Alexander G.
author_facet Cardoso, Gabriel
Stéphan, Jean-Marie
Abanov, Alexander G.
contents We present Monte Carlo simulations of the two-dimensional one-component plasma (2D OCP) confined to a cylindrical geometry, focusing on density profiles, fluctuations, and their connection to bulk correlation functions. The cylindrical geometry eliminates geometric frustration, allowing for a precise study of boundary density oscillations, the dependence on boundary conditions, and their relationship to the melting transition and triangular lattice structure. By triangulating particle configurations, we quantify the exponential suppression of topological defects in the crystalline phase. Furthermore, we propose an oriented correlation function that better links boundary density profiles with bulk correlation functions, motivating anisotropic generalizations of the phase-field crystal (PFC) model. These results provide new insights into the interplay between boundary effects, bulk correlations, and phase transitions in the 2D OCP.
format Preprint
id arxiv_https___arxiv_org_abs_2412_15345
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle The density profile of a Coulomb plasma on a cylinder: boundary oscillations
Cardoso, Gabriel
Stéphan, Jean-Marie
Abanov, Alexander G.
Statistical Mechanics
Strongly Correlated Electrons
We present Monte Carlo simulations of the two-dimensional one-component plasma (2D OCP) confined to a cylindrical geometry, focusing on density profiles, fluctuations, and their connection to bulk correlation functions. The cylindrical geometry eliminates geometric frustration, allowing for a precise study of boundary density oscillations, the dependence on boundary conditions, and their relationship to the melting transition and triangular lattice structure. By triangulating particle configurations, we quantify the exponential suppression of topological defects in the crystalline phase. Furthermore, we propose an oriented correlation function that better links boundary density profiles with bulk correlation functions, motivating anisotropic generalizations of the phase-field crystal (PFC) model. These results provide new insights into the interplay between boundary effects, bulk correlations, and phase transitions in the 2D OCP.
title The density profile of a Coulomb plasma on a cylinder: boundary oscillations
topic Statistical Mechanics
Strongly Correlated Electrons
url https://arxiv.org/abs/2412.15345