Applies Yukhnovskii-Kelbg methods to electrolytes and high-T plasmas, predicting oscillating correlations at high density and thermodynamic scaling from sqrt(n) to n^{1/4} while respecting the Onsager bound.
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Virial expansion results for hydrogen plasma are benchmarked against PIMC simulations to derive medium-dependent ionization potentials and ionization degrees using quasiparticles.
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On the statistical theory of strong electrolytes and high-temperature plasmas: new applications of the work of Yukhnovskii and Kelbg
Applies Yukhnovskii-Kelbg methods to electrolytes and high-T plasmas, predicting oscillating correlations at high density and thermodynamic scaling from sqrt(n) to n^{1/4} while respecting the Onsager bound.
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The virial expansion of the Hydrogen equation of state in comparison to PIMC simulations: the quasiparticle concept, IPD, and ionization degree
Virial expansion results for hydrogen plasma are benchmarked against PIMC simulations to derive medium-dependent ionization potentials and ionization degrees using quasiparticles.