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Bibliographic Details
Main Authors: Naplekov, Dmitry M., Yanovsky, Vladimir V.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2508.06308
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author Naplekov, Dmitry M.
Yanovsky, Vladimir V.
author_facet Naplekov, Dmitry M.
Yanovsky, Vladimir V.
contents We consider the atomistic origin and the main mechanisms determining the energy of a liquid interface after relaxation. A simple theory is constructed for the monatomic densely packed liquids that allows calculation of the surface tension coefficients based on the interatomic potential parameters, without fitting coefficients. Considered are the potential energies of both <<broken>> and stretched bonds between surface atoms. The later contribution is found to be from $20 \%$ to $45 \%$, with an average stretching of the first layer in the range of $7 \% - 14 \%$. The equality of the unit tension force and the unit surface energy is shown. The calculated surface tension coefficients relate to the experimental values as $1.0 - 1.3$ for the ten $fcc$ substances considered. For twenty $bcc$ substances, this range is $0.65 - 1.35$. The increase of density of the second atomic layer is predicted, due to its influence on the coordination number of surface atoms. For a convex surface, increase in the surface tension coefficient with increase in curvature is predicted.
format Preprint
id arxiv_https___arxiv_org_abs_2508_06308
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Surface tension of monoatomic liquids after relaxation: the main energy contributions
Naplekov, Dmitry M.
Yanovsky, Vladimir V.
Statistical Mechanics
We consider the atomistic origin and the main mechanisms determining the energy of a liquid interface after relaxation. A simple theory is constructed for the monatomic densely packed liquids that allows calculation of the surface tension coefficients based on the interatomic potential parameters, without fitting coefficients. Considered are the potential energies of both <<broken>> and stretched bonds between surface atoms. The later contribution is found to be from $20 \%$ to $45 \%$, with an average stretching of the first layer in the range of $7 \% - 14 \%$. The equality of the unit tension force and the unit surface energy is shown. The calculated surface tension coefficients relate to the experimental values as $1.0 - 1.3$ for the ten $fcc$ substances considered. For twenty $bcc$ substances, this range is $0.65 - 1.35$. The increase of density of the second atomic layer is predicted, due to its influence on the coordination number of surface atoms. For a convex surface, increase in the surface tension coefficient with increase in curvature is predicted.
title Surface tension of monoatomic liquids after relaxation: the main energy contributions
topic Statistical Mechanics
url https://arxiv.org/abs/2508.06308