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A generalised Landau-Lifshitz fluctuating hydrodynamics model for concurrent simulations of liquids at atomistic and continuum resolution

A generalised Landau-Lifshitz fluctuating hydrodynamics model for concurrent simulations of liquids at atomistic and continuum resolution
A generalised Landau-Lifshitz fluctuating hydrodynamics model for concurrent simulations of liquids at atomistic and continuum resolution

A new hybrid molecular dynamics-hydrodynamics method based on the analogy with two-phase flows is implemented that takes into account the feedback of molecular dynamics on hydrodynamics consistently. The consistency is achieved by deriving a discrete system of fluctuating hydrodynamic equations whose solution converges to the locally averaged molecular dynamics field exactly in terms of the locally averaged fields. The new equations can be viewed as a generalisation of the classical continuum Landau-Lifshitz fluctuating hydrodynamics model in statistical mechanics to include a smooth transition from large-scale continuum hydrodynamics that obeys a Gaussian statistics to all-atom molecular dynamics. Similar to the classical Landau-Lifshitz fluctuating hydrodynamics model, the suggested generalised Landau-Lifshitz fluctuating hydrodynamics equations are too complex for analytical solution; hence, a computational scheme for solving these equations is suggested. The scheme is implemented in a popular open-source molecular dynamics code GROMACS (GROningen MAchine for Chemical Simulations), and numerical examples are provided for liquid argon simulations under equilibrium conditions and under macroscopic flow effects.

0021-9606
Korotkin, I. A.
1ca96363-075e-41d9-a0c1-153c8c0cc31a
Karabasov, S. A.
8c5764f1-8325-47c0-8db7-4565ac15685d
Korotkin, I. A.
1ca96363-075e-41d9-a0c1-153c8c0cc31a
Karabasov, S. A.
8c5764f1-8325-47c0-8db7-4565ac15685d

Korotkin, I. A. and Karabasov, S. A. (2018) A generalised Landau-Lifshitz fluctuating hydrodynamics model for concurrent simulations of liquids at atomistic and continuum resolution. Journal of Chemical Physics, 149 (24), [244101]. (doi:10.1063/1.5058804).

Record type: Article

Abstract

A new hybrid molecular dynamics-hydrodynamics method based on the analogy with two-phase flows is implemented that takes into account the feedback of molecular dynamics on hydrodynamics consistently. The consistency is achieved by deriving a discrete system of fluctuating hydrodynamic equations whose solution converges to the locally averaged molecular dynamics field exactly in terms of the locally averaged fields. The new equations can be viewed as a generalisation of the classical continuum Landau-Lifshitz fluctuating hydrodynamics model in statistical mechanics to include a smooth transition from large-scale continuum hydrodynamics that obeys a Gaussian statistics to all-atom molecular dynamics. Similar to the classical Landau-Lifshitz fluctuating hydrodynamics model, the suggested generalised Landau-Lifshitz fluctuating hydrodynamics equations are too complex for analytical solution; hence, a computational scheme for solving these equations is suggested. The scheme is implemented in a popular open-source molecular dynamics code GROMACS (GROningen MAchine for Chemical Simulations), and numerical examples are provided for liquid argon simulations under equilibrium conditions and under macroscopic flow effects.

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More information

e-pub ahead of print date: 26 December 2018
Published date: 28 December 2018
Additional Information: Funding Information: This project has received funding from the European Union’s Horizon 2020 research and innovation programme under the Marie Sklodowska-Curie Grant Agreement No. 700276 (Individual Fellowship Grant No. H2020-MSCA-IF-2015-700276 HIPPOGRIFFE). Publisher Copyright: © 2018 Author(s).

Identifiers

Local EPrints ID: 468111
URI: http://eprints.soton.ac.uk/id/eprint/468111
DOI: doi:10.1063/1.5058804
ISSN: 0021-9606
PURE UUID: 0a03dbec-9d54-44ec-aea5-3547e73344ad
ORCID for I. A. Korotkin: ORCID iD orcid.org/0000-0002-5023-3684

Catalogue record

Date deposited: 02 Aug 2022 17:08
Last modified: 18 Mar 2024 03:50

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Contributors

Author: I. A. Korotkin ORCID iD
Author: S. A. Karabasov

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