Pressure-Induced Structural Change of Liquid Carbon Studied by Ab Initio Molecular-Dynamics Simulations(Condensed Matter: Structure, Mechanical and Thermal Properties)

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概要

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• We have studied the structural and the electronic properties of liquid carbon as a function of the pressure using ab initio molecular-dynamics simulation. We are particularly concerned with the pressure-induced structural change. When the density (pressure) is increased from 2.9g/cm^3 (16GPa) to 11.6g/cm^3 (2000GPa) at the constant temperature of 9000K, the structure of liquid carbon changes drastically as follows: The peaks of the radial distribution functions g(r) shift to shorter distances and become higher and sharper, and the average coordination number increases from three to eight. The structure factor S(k) changes its shape qualitatively at extremely high pressure and becomes similar to those of liquid Si and Ge at ambient pressure, which is characterized by a shoulder on the high-wavenumber side of the first peak of S(k). We have shown that, with increasing density, the bonding character changes from covalent bonding to metallic bonding based on the bond-angle distribution, the electron density distribution and the overlap population. We have also investigated the dynamical properties of liquid carbon such as the velocity autocorrelation function and the self-diffusion coefficient in relation to the pressure-induced structural change.

• 社団法人日本物理学会の論文
• 2005-07-15

著者

• Kozo Hoshino

  Graduate School Of Integrated Arts And Sciences Hiroshima University

• Hoshino Kozo

  Faculty Of Integrated Arts And Sciences Hiroshima University

• Shimojo Fuyuki

  Department Of Physics Faculty Of Science Kumamoto University

• Shimojo F

  Hiroshima Univ. Higashi‐hiroshima Jpn

• Hoshino Kozo

  Faculty Of Engineering Niigata University

• Hoshino K

  Japan Atomic Energy Res. Inst. Ibaraki Jpn

• HARADA Akiko

  Faculty of Integrated Arts and Sciences, Hiroshima University

• Harada Akiko

  Faculty Of Integrated Arts And Sciences Hiroshima University

• Kawashima H

  Japan Atomic Energy Res. Inst. Ibaraki Jpn

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