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Thomas-Fermi model yields condensed phase of molecular metallic oxygen

Materials Science 2012-08-23 v1 Chemical Physics
Authors: Yuri Kornyushin
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Abstract

Calculations, performed in Thomas-Fermi approximation, show that the energy of a condensed phase of molecular metallic oxygen is lower by 496 kJ/mol than that of an insulator oxygen phase. The insulator phase is separated from a metallic one by energetic barrier of 1165 kJ/mol. This barrier could be overcome by means of electromagnetic irradiation with quantum energy of 12.071 eV or a bit higher. During such a transition the amount of energy equal to 496 kJ/mol is released. It should be extracted from a sample to secure the existence of a metallic phase.

Cite

@article{arxiv.0803.0386,
  title  = {Thomas-Fermi model yields condensed phase of molecular metallic oxygen},
  author = {Yuri Kornyushin},
  journal= {arXiv preprint arXiv:0803.0386},
  year   = {2012}
}

Comments

Thomas-Fermi model allows existance of condensed phase of molecular metallic oxygen

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