Relaxation of non-isothermal hot dense plasma parameters
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Date
2017-09-06
Authors
Kodanova, S.K.
Issanova, M.K.
Amirov, S.M.
Ramazanov, T.S.
Tikhonov, A.
Moldabekov, Zh.A.
Journal Title
Journal ISSN
Volume Title
Publisher
Matter and Radiation at Extremes
Abstract
Abstract The relaxation of temperature, coupling parameters, the excess part of equation of state, and the correlation energy of the non-isothermal hot dense plasmas are considered on the basis of the method of effective interaction potentials. The electron–ion effective interaction potential for the hot dense plasma is discussed. The accuracy of description of the dense plasma properties by the effective electron–ion interaction potential is demonstrated by the agreement of the derived quantities like stopping power and transport coefficients calculated using our methodology with the results of the finite-temperature Kohn-Sham density-functional theory molecular dynamics, and orbital-free molecular dynamics results as well as with the data obtained using other theoretical approaches.
Description
Keywords
Dense plasma, Effective potentials, Temperature relaxation, Stopping power, Transport
Citation
S.K. Kodanova, M.K. Issanova, S.M. Amirov, T.S. Ramazanov, A. Tikhonov, Zh.A. Moldabekov, Relaxation of non-isothermal hot dense plasma parameters, In Matter and Radiation at Extremes, 2017, , ISSN 2468-080X