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Main Authors: Bulavin, L. A., Kulinskii, V. L., Katts, A. M., Maslechko, A. M.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2506.14622
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author Bulavin, L. A.
Kulinskii, V. L.
Katts, A. M.
Maslechko, A. M.
author_facet Bulavin, L. A.
Kulinskii, V. L.
Katts, A. M.
Maslechko, A. M.
contents Liquid-gas equilibrium is considered using the global isomorphism with the Ising-like (lattice gas) model. Such an approach assumes the existence of the order parameter in terms of which the symmetry of binodal is restored not only in the vicinity of the critical point (critical isomorphism) but also globally in the whole coexistence region. We show how the empirical law of the rectilinear density diameter of the liquid-gas binodal allows us to derive a rather simple form of the isomorphism transformation between the fluid and lattice gas model of Ising-type. The relations for critical parameters which follow from such isomorphism are tested on a variety of fluid systems, both real and model ones. Moreover, we consider the phase equilibrium in polymer solutions and the Flory $θ$-point as the extreme state of such equilibrium within our approach. The most crucial testing in 2D case is using the Onsager exact solution of the Ising model, and we represent the results of our approach to the calculation of critical point parameters of monolayers for noble gases and the surface tension.
format Preprint
id arxiv_https___arxiv_org_abs_2506_14622
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Liquid-gas state regularities as a manifestation of global isomorphism with the Ising model
Bulavin, L. A.
Kulinskii, V. L.
Katts, A. M.
Maslechko, A. M.
Soft Condensed Matter
Liquid-gas equilibrium is considered using the global isomorphism with the Ising-like (lattice gas) model. Such an approach assumes the existence of the order parameter in terms of which the symmetry of binodal is restored not only in the vicinity of the critical point (critical isomorphism) but also globally in the whole coexistence region. We show how the empirical law of the rectilinear density diameter of the liquid-gas binodal allows us to derive a rather simple form of the isomorphism transformation between the fluid and lattice gas model of Ising-type. The relations for critical parameters which follow from such isomorphism are tested on a variety of fluid systems, both real and model ones. Moreover, we consider the phase equilibrium in polymer solutions and the Flory $θ$-point as the extreme state of such equilibrium within our approach. The most crucial testing in 2D case is using the Onsager exact solution of the Ising model, and we represent the results of our approach to the calculation of critical point parameters of monolayers for noble gases and the surface tension.
title Liquid-gas state regularities as a manifestation of global isomorphism with the Ising model
topic Soft Condensed Matter
url https://arxiv.org/abs/2506.14622