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Molecular simulation of the vapor-liquid coexistence of mercury

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journal contribution
posted on 2024-07-09, 22:34 authored by Gabriele Raabe, Richard SadusRichard Sadus
The vapor-liquid coexistence properties of mercury are determined from molecular simulation using empirical intermolecular potentials, ab initio two-body potentials, and an effective multibody intermolecular potential. Comparison with experiment shows that pair-interactions alone are inadequate to account for the vapor–liquid coexistence properties of mercury. It is shown that very good agreement between theory and experiment can be obtained by combining an accurate two-body ab initio potential with the addition of an empirically determined multibody contribution. As a consequence of this multibody contribution, we can reliably predict mercury's phase coexistence properties and the heats of vaporization. The pair distribution function of mercury can also be predicted with reasonable accuracy.

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ISSN

0021-9606

Journal title

Journal of Chemical Physics

Volume

119

Issue

13

Pagination

6691-6697

Publisher

American Institute of Physics

Copyright statement

Copyright © 2003 American Institute of Physics. Paper is reproduced in accordance with the copyright policy of the publisher.

Language

eng

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