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Main Authors: Travěnec, Igor, Šamaj, Ladislav
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2507.01568
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author Travěnec, Igor
Šamaj, Ladislav
author_facet Travěnec, Igor
Šamaj, Ladislav
contents Previous experiments and numerical simulations have revealed that a limited number of two- and three-dimensional particle systems contract in volume upon heating isobarically. This anomalous phenomenon is known as negative thermal expansion (NTE). The present paper focuses on the possibility of NTE in exactly solvable one-dimensional fluids. Firstly, the quantization of classical pure hard rods (free of NTE) does not induce NTE which indicates an unimportant role of quantum mechanics in the topic. Secondly, the classical hard rods with various types of soft nearest-neighbor interactions that contain a basin of attraction with only one minimum are investigated. The ground-state analysis reveals that, for certain potentials, increasing the pressure can lead to a discontinuous jump in the mean spacing between particles. The low-temperature analysis of the exact equation of state indicates that the NTE anomaly is present if the curvature of the soft potential increases with the distance between particles or if the potential exhibits a singularity within the basin of attraction. Isotherms of the compressibility factor, which measures the deviation of the thermodynamic behavior of a real gas from that of an ideal gas, demonstrate typical plateau or double-plateau shapes in large intervals of particle density.
format Preprint
id arxiv_https___arxiv_org_abs_2507_01568
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Low-temperature anomalies in one-dimensional exactly solvable fluids
Travěnec, Igor
Šamaj, Ladislav
Soft Condensed Matter
Statistical Mechanics
Previous experiments and numerical simulations have revealed that a limited number of two- and three-dimensional particle systems contract in volume upon heating isobarically. This anomalous phenomenon is known as negative thermal expansion (NTE). The present paper focuses on the possibility of NTE in exactly solvable one-dimensional fluids. Firstly, the quantization of classical pure hard rods (free of NTE) does not induce NTE which indicates an unimportant role of quantum mechanics in the topic. Secondly, the classical hard rods with various types of soft nearest-neighbor interactions that contain a basin of attraction with only one minimum are investigated. The ground-state analysis reveals that, for certain potentials, increasing the pressure can lead to a discontinuous jump in the mean spacing between particles. The low-temperature analysis of the exact equation of state indicates that the NTE anomaly is present if the curvature of the soft potential increases with the distance between particles or if the potential exhibits a singularity within the basin of attraction. Isotherms of the compressibility factor, which measures the deviation of the thermodynamic behavior of a real gas from that of an ideal gas, demonstrate typical plateau or double-plateau shapes in large intervals of particle density.
title Low-temperature anomalies in one-dimensional exactly solvable fluids
topic Soft Condensed Matter
Statistical Mechanics
url https://arxiv.org/abs/2507.01568