When correlations exceed system size: ﬁnite-size scaling in free boundary conditions above the upper critical dimension

Yu. Honchar; B. Berche; Yu. Holovatch; R. Kenna

doi:10.5488/cmp.27.13603

Condensed Matter Physics (Mar 2024)

When correlations exceed system size: ﬁnite-size scaling in free boundary conditions above the upper critical dimension

Yu. Honchar,
B. Berche,
Yu. Holovatch,
R. Kenna

Affiliations

Yu. Honchar: ORCiD; Institute for Condensed Matter Physics of the National Academy of Sciences of Ukraine, 1 Svientsitskii Str., 79011 Lviv, Ukraine; Centre for Fluids and Complex Systems, Coventry University, Coventry CV1 5FB, UK; L4 Collaboration and Doctoral College for the Statistical Physics of Complex Systems, Lviv-Leipzig-Lorraine-Coventry, Europe
B. Berche: ORCiD; Laboratoire de Physique et Chimie Théoriques, Université de Lorraine - CNRS, Nancy Cedex, France; L4 Collaboration and Doctoral College for the Statistical Physics of Complex Systems, Lviv-Leipzig-Lorraine-Coventry, Europe;
Yu. Holovatch: ORCiD; Institute for Condensed Matter Physics of the National Academy of Sciences of Ukraine, 1 Svientsitskii Str., 79011 Lviv, Ukraine; Centre for Fluids and Complex Systems, Coventry University, Coventry CV1 5FB, UK; L4 Collaboration and Doctoral College for the Statistical Physics of Complex Systems, Lviv-Leipzig-Lorraine-Coventry, Europe; Complexity Science Hub Vienna, 1080 Vienna, Austria
R. Kenna: ORCiD; Centre for Fluids and Complex Systems, Coventry University, Coventry CV1 5FB, UK; L4 Collaboration and Doctoral College for the Statistical Physics of Complex Systems, Lviv-Leipzig-Lorraine-Coventry, Europe

DOI: https://doi.org/10.5488/cmp.27.13603
Journal volume & issue: Vol. 27, no. 1

Abstract

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We progress finite-size scaling in systems with free boundary conditions above their upper critical dimension, where in the thermodynamic limit critical scaling is described by mean-field theory. Recent works show that the correlation length is not bound by the system's physical size, a belief that long held sway. Instead, two scaling regimes can be observed — at the critical and pseudo-critical temperatures. We demonstrate that both are manifest for free boundaries. We use numerical simulations of the d = 5 Ising model to analyse the magnetization, susceptibility, magnetization Fourier modes and the partition function zeros. While some of the response functions hide the dual finite-size scaling, the precision enabled by the analysis of Lee–Yang zeros allows this be brought to the fore. In particular, finite-size scaling of leading zeros at the pseudo-critical point confirms recent predictions coming from correlations exceeding the system size. This paper is dedicated to Jaroslav Ilnytskyi on the occasion of his 60th birthday.

Published in Condensed Matter Physics

ISSN: 1607-324X (Print); 2224-9079 (Online)
Publisher: Institute for Condensed Matter Physics
Country of publisher: Ukraine
LCC subjects: Science: Physics
Website: https://cmpj2.icmp.lviv.ua/index.php/cmpj/index

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