A hybrid molecular dynamics/fluctuating hydrodynamics method for modelling liquids at multiple scales in space and time
A hybrid molecular dynamics/fluctuating hydrodynamics method for modelling liquids at multiple scales in space and time
A new 3D implementation of a hybrid model based on the analogy with two-phase hydrodynamics has been developed for the simulation of liquids at microscale. The idea of the method is to smoothly combine the atomistic description in the molecular dynamics zone with the Landau-Lifshitz fluctuating hydrodynamics representation in the rest of the system in the framework of macroscopic conservation laws through the use of a single "zoom-in" user-defined function s that has the meaning of a partial concentration in the two-phase analogy model. In comparison with our previous works, the implementation has been extended to full 3D simulations for a range of atomistic models in GROMACS from argon to water in equilibrium conditions with a constant or a spatially variable function s. Preliminary results of simulating the diffusion of a small peptide in water are also reported.
Korotkin, Ivan
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Karabasov, Sergey
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Nerukh, Dmitry
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Markesteijn, Anton
27e67176-0923-4503-a804-b0fc886f1bce
Scukins, Arturs
240d8cc0-c1e4-4983-8e4e-23729665b41b
Farafonov, Vladimir
207a6c3e-4af2-4f1e-8a8c-7db7dc00ed17
Pavlov, Evgen
ac0e0d3a-ad9f-469f-bdf8-cec74016af29
2 July 2015
Korotkin, Ivan
1ca96363-075e-41d9-a0c1-153c8c0cc31a
Karabasov, Sergey
39acae29-1474-4567-a51c-af177ad0fe72
Nerukh, Dmitry
75d91f2c-d211-469d-b13b-d0fc7fe2b219
Markesteijn, Anton
27e67176-0923-4503-a804-b0fc886f1bce
Scukins, Arturs
240d8cc0-c1e4-4983-8e4e-23729665b41b
Farafonov, Vladimir
207a6c3e-4af2-4f1e-8a8c-7db7dc00ed17
Pavlov, Evgen
ac0e0d3a-ad9f-469f-bdf8-cec74016af29
Korotkin, Ivan, Karabasov, Sergey, Nerukh, Dmitry, Markesteijn, Anton, Scukins, Arturs, Farafonov, Vladimir and Pavlov, Evgen
(2015)
A hybrid molecular dynamics/fluctuating hydrodynamics method for modelling liquids at multiple scales in space and time.
Journal of Chemical Physics, 143 (1), [014110].
(doi:10.1063/1.4923011).
Abstract
A new 3D implementation of a hybrid model based on the analogy with two-phase hydrodynamics has been developed for the simulation of liquids at microscale. The idea of the method is to smoothly combine the atomistic description in the molecular dynamics zone with the Landau-Lifshitz fluctuating hydrodynamics representation in the rest of the system in the framework of macroscopic conservation laws through the use of a single "zoom-in" user-defined function s that has the meaning of a partial concentration in the two-phase analogy model. In comparison with our previous works, the implementation has been extended to full 3D simulations for a range of atomistic models in GROMACS from argon to water in equilibrium conditions with a constant or a spatially variable function s. Preliminary results of simulating the diffusion of a small peptide in water are also reported.
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Published date: 2 July 2015
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© 2015 AIP Publishing LLC.
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Copyright 2018 Elsevier B.V., All rights reserved.
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Local EPrints ID: 457543
URI: http://eprints.soton.ac.uk/id/eprint/457543
ISSN: 0021-9606
PURE UUID: 24fd97df-b0c1-4c44-ac66-a8fe2e44e67a
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Date deposited: 10 Jun 2022 16:42
Last modified: 17 Mar 2024 03:54
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Contributors
Author:
Sergey Karabasov
Author:
Dmitry Nerukh
Author:
Anton Markesteijn
Author:
Arturs Scukins
Author:
Vladimir Farafonov
Author:
Evgen Pavlov
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