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Wide-range equation of state of matter. II. Microfield model.

Wide-range equation of state of matter. II. Microfield model.
Wide-range equation of state of matter. II. Microfield model.
Among the models proposed for theoretically calculating wide-range equations of state of matter we single out: the ionization — chemical equilibrium model for the gas — plasma state of matter containing a qualitatively new nonidealness correction, the microfield correction; the quantum — statistical model for compressed condensed matter; the quasiband model for the transition region between these states. It is shown that, taken together, these models are in good agreement with experiments, give the most accurate equation of state in the supercritical region to date, and provide a qualitative explanation of the optical properties of matter.
1064-8887
336-354
Golosnoy, I.O.
40603f91-7488-49ea-830f-24dd930573d1
Kalitkin, N.N.
cf22a9ed-50ab-451b-8f5a-5d2470a9c5f9
Volokitin, V.S.
52a738d2-37a8-4006-ba56-2bd1f2f2ddd3
Golosnoy, I.O.
40603f91-7488-49ea-830f-24dd930573d1
Kalitkin, N.N.
cf22a9ed-50ab-451b-8f5a-5d2470a9c5f9
Volokitin, V.S.
52a738d2-37a8-4006-ba56-2bd1f2f2ddd3

Golosnoy, I.O., Kalitkin, N.N. and Volokitin, V.S. (1995) Wide-range equation of state of matter. II. Microfield model. Russian Physics Journal, 38 (4), 336-354. (doi:10.1007/BF00560096).

Record type: Article

Abstract

Among the models proposed for theoretically calculating wide-range equations of state of matter we single out: the ionization — chemical equilibrium model for the gas — plasma state of matter containing a qualitatively new nonidealness correction, the microfield correction; the quantum — statistical model for compressed condensed matter; the quasiband model for the transition region between these states. It is shown that, taken together, these models are in good agreement with experiments, give the most accurate equation of state in the supercritical region to date, and provide a qualitative explanation of the optical properties of matter.

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More information

Published date: April 1995
Additional Information: Translated from Izvestiya Vysshikh Uchebnykh Zavedenii, Fizika, No. 4, pp. 11–31, April, 1995.
Organisations: EEE

Identifiers

Local EPrints ID: 265363
URI: http://eprints.soton.ac.uk/id/eprint/265363
DOI: doi:10.1007/BF00560096
ISSN: 1064-8887
PURE UUID: 07e452aa-33fe-459a-a3c7-6b4402be429c

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Date deposited: 31 Mar 2008 08:46
Last modified: 14 Mar 2024 08:07

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Contributors

Author: I.O. Golosnoy
Author: N.N. Kalitkin
Author: V.S. Volokitin

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