Three-Dimensional Molecular Dynamics Simulation on Heat Propagation in Liquid Argon

Chin. Phys. Lett.

2001, Vol. 18

Issue (1): 71-73 DOI:

Original Articles

Three-Dimensional Molecular Dynamics Simulation on Heat Propagation in Liquid Argon

GUO Ying-Kui;GUO Zeng-Yuan;LIANG Xin-Gang

Department of Engineering Mechanics, Tsinghua University, Beijing 100084

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GUO Ying-Kui, GUO Zeng-Yuan, LIANG Xin-Gang 2001 Chin. Phys. Lett. 18 71-73

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Abstract The propagation behaviour of an initial thermal perturbation in liquid argon is simulated by the molecular dynamics method. The 12-6 Lennard--Jones potential and mirror boundary conditions are employed in the 32768-particle three-dimensional simulation. Macroscopic characteristics such as the kinetic temperature, pressure and momentum profiles are monitored during the simulation in order to examine the heat propagation behaviour under a timescale comparable with the relaxation time. The results show that the behaviour is still diffusion-like; no features predicted by the Cattaneo--Vernotte model have been found. The wave-like front of the local temperature may be caused by the adiabatic compression and expansion by the pressure wave generated by the thermal expansion.

Keywords: 44.10.+i 02.70.Ns 61.25.Bi

Published: 01 January 2001

PACS:	44.10.+i	(Heat conduction)
	02.70.Ns	(Molecular dynamics and particle methods)
	61.25.Bi	(Liquid noble gases)

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https://cpl.iphy.ac.cn/ OR https://cpl.iphy.ac.cn/Y2001/V18/I1/071

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