INFERNO - A better model of atoms in dense plasmas

Details INFERNO - A better model of atoms in dense plasmas INFERNO - A better model of atoms in dense plasmas

Mar 1982

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1982jqsrt..27..335l&link_type=abstract

(Conference on Radiative Properties of Hot Dense Matter, Monterey, CA, Nov. 17-20, 1980.) Journal of Quantitative Spectroscopy a

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49

Atomic Structure, Computer Programs, Dense Plasmas, Nuclear Models, Self Consistent Fields, Dirac Equation, Electron Energy, Equations Of State, Gas Pressure, Neutral Gases, Photoabsorption, Plasma Composition, Plasma Temperature, Thomas-Fermi Model, Transition Metals

Scientific paper

A self-consistent field model of atoms in dense plasmas has been devised and incorporated in a computer program. In the model there is a uniform positive charge distribution with a hole in it and at the center of the hole an atomic nucleus. There are electrons, in both bound and continuum states, in sufficient number to form an electrically neutral system. The Dirac equation is used so that high Z atoms can be dealt with. A finite temperature is assumed, and a mean field (average atom) approximation is used in statistical averages. Applications have been made to equations of states and to photoabsorption.

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