1985
DOI: 10.1103/physreva.32.1768
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Theory of interparticle correlations in dense, high-temperature plasmas. I. General formalism

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Cited by 108 publications
(49 citation statements)
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“…e (q) denotes an effective static electronic dielectric function [10] with the static local field correction G e (q) and the polarizability of noninteracting electrons χ In order to obtain the ion-ion structure factor S ii (q), numerical methods are applied for solving the system of Ornstein-Zernike and HNC equations [9]. The ion-ion potential used in HNC scheme in [9] is screened…”
Section: Representations For Correlation Functionsmentioning
confidence: 99%
“…e (q) denotes an effective static electronic dielectric function [10] with the static local field correction G e (q) and the polarizability of noninteracting electrons χ In order to obtain the ion-ion structure factor S ii (q), numerical methods are applied for solving the system of Ornstein-Zernike and HNC equations [9]. The ion-ion potential used in HNC scheme in [9] is screened…”
Section: Representations For Correlation Functionsmentioning
confidence: 99%
“…Theoretical approaches to dynamic structure factor of two-component plasmas have been developed starting from different approaches such as perturbation theory, the viscoelastic model [11], the recurrence relation method [12], or the moment approach, see Ref. [13].…”
Section: A Thomson Scattering and Born-mermin Approachmentioning
confidence: 99%
“…as proposed by Ichimaru and coworkers [10], where ω , ω), respectively. They can be expressed in terms of the pair distribution functions g αβ (r) (see [14]) which we calculated by solving numerically the coupled hypernetted-chain (HNC) equations for a TCMP with the interactions V αβ (1).…”
Section: Numerical Simulations and Theoretical Approachesmentioning
confidence: 82%