Thermophysical properties of liquid carbon dioxide under shock compressions: Quantum molecular dynamic simulations

Details Thermophysical properties of liquid carbon dioxide under shock compressions: Quantum molecular dynamic simulations Thermophysical properties of liquid carbon dioxide under shock compressions: Quantum molecular dynamic simulations

2010-07-08

arxiv.org/abs/1007.1300v1

Physics

Condensed Matter

Materials Science

Scientific paper

Quantum molecular dynamic simulations are introduced to study the dynamical, electrical, and optical properties of carbon dioxide under dynamic compressions. The principal Hugoniot derived from the calculated equation of states is demonstrated to be well accordant with experimental results. Molecular dissociation and recombination are investigated through pair correlation functions, and decomposition of carbon dioxide is found to be between 40 and 50 GPa along the Hugoniot, where nonmetal-metal transition is observed. In addition, the optical properties of shock compressed carbon dioxide are also theoretically predicted along the Hugoniot.

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