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Molecular Simulation Volume 43, 2017 - Issue 13-16: Proceedings of the 4th International Conference on Molecular Simulation
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Articles

Classical cumulant dynamics for statistical chemical physics

Yasuteru ShigetaCenter for Computational Sciences, University of Tsukuba, Tsukuba, JapanCorrespondence[email protected]
,
Ryuhei HaradaCenter for Computational Sciences, University of Tsukuba, Tsukuba, Japan
,
Ryuma SatoCenter for Computational Sciences, University of Tsukuba, Tsukuba, Japan
,
Hirotaka Kitoh-NishiokaCenter for Computational Sciences, University of Tsukuba, Tsukuba, Japan
,
Thi Kieu My BuiCenter for Computational Sciences, University of Tsukuba, Tsukuba, Japan
,
Akimasa SatoCenter for Computational Sciences, University of Tsukuba, Tsukuba, Japan
,
Takaki TokiwaCenter for Computational Sciences, University of Tsukuba, Tsukuba, Japan
,
Akane KyanCenter for Computational Sciences, University of Tsukuba, Tsukuba, Japan
,
Yuki IshiiCenter for Computational Sciences, University of Tsukuba, Tsukuba, Japan
,
Masato KimatsukaCenter for Computational Sciences, University of Tsukuba, Tsukuba, Japan
,
Sotaro YamasakiCenter for Computational Sciences, University of Tsukuba, Tsukuba, Japan
,
Megumi KayanumaCenter for Computational Sciences, University of Tsukuba, Tsukuba, Japan
&
Mitsuo ShojiCenter for Computational Sciences, University of Tsukuba, Tsukuba, Japan
 show all
Pages 1260-1268 | Received 09 Feb 2017, Accepted 29 Mar 2017, Published online: 26 May 2017
 
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Abstract

We developed classical cumulant dynamics for statistical mechanics in order to evaluate thermal equilibrium properties of a given system. The equations of motion (EOMs) for momentum and position were formulated together with those for second-order cumulant variables, which are functions of second-order moments. From the Kramers equation, and simplified EOMs were obtained by assuming a stationary state limit. The present method combined with the umbrella integration method was applied to evaluate free energy surface of a seven-particle Morse cluster. With low computational costs, the present approach gave almost equivalent free energy barrier those by conventional classical molecular dynamics.

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