Effect of many-body interactions on the equation of state for Solid Argon
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O641,O561.1

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    Abstract:

    By using ab initio self-consistent field Hartree-Fork methods and atomic clusters expanding theory and employing Gamess program, two- and three-body interaction energies and the equation of state for solid argon in fcc crystal have been quantificationally calculated at the neighboring atomic distance R=2.40 -4.00 Å under high pressure. In addition, the convergence and truncation of atomic energy multi-body expansion are analyzed. It is found that two-body contribution to the cohesive energy is positive, while the three-body contribution is negative in solid argon under high pressure. At high pressure, only the consideration of the two-body contribution will overestimate the cohesive energy, hence it is necessary to introduce the three-body negative effects. The phenomenon of the experiment under 80GPa can be explained by considering the three-body potential.

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Cite this article as: LI Ji-Hong, ZHENG Xing-Rong, PENG Chang-Ning. Effect of many-body interactions on the equation of state for Solid Argon [J]. J Sichuan Univ: Nat Sci Ed, 2016, 53: 131.

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History
  • Received:March 07,2015
  • Revised:March 24,2015
  • Adopted:March 31,2015
  • Online: May 30,2016
  • Published: