2005
DOI: 10.1002/ctpp.200510033
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Two‐moment modelling of the dynamic longitudinal conductivity of strongly coupled Coulomb systems

Abstract: A dynamic longitudinal internal conductivity model, derived from the classical method of moments, is applied to the analysis of recent simulation data and reflectivity measurements of shock-compressed dense xenon plasmas. This model satisfies both the non-zero f −sum rule and the second non-zero sum rule, and reproduces the non-monotonicity of the conductivity of dense plasmas beyond the domain of applicability of the Drude-Lorentz model. The Drude-Lorentz model from the point of view of the theory of moments… Show more

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Cited by 12 publications
(9 citation statements)
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“…For further study of dynamic properties of cold plasmas in comparison with the simulation and experimental data see, [16]. Two-component plasmas (TCPs) constitute the simplest model that simulates the physical properties of real plasmas.…”
Section: Nevanlinna's Parameter Function Qmentioning
confidence: 99%
“…For further study of dynamic properties of cold plasmas in comparison with the simulation and experimental data see, [16]. Two-component plasmas (TCPs) constitute the simplest model that simulates the physical properties of real plasmas.…”
Section: Nevanlinna's Parameter Function Qmentioning
confidence: 99%
“…Certainly, the asymptotic behavior of the DSF observed in [9] Notice that alternative approaches like the QLCA or the continuedfraction method do not predict the damping of the plasmon modes. 45 …”
Section: Dynamic Structure Factorsmentioning
confidence: 99%
“…The Nevanlinna theorem [44], see also [45], states that there exists a oneto-one correspondence between the set of all solutions of the moment problem and the Nevanlinna functions , with the following additional property: In particular, among the functions (3.11) there is a unique function which, for a given , would yield:…”
Section: Non-monotonic Behavior Of the Dynamic Conductivity Of Hydrogmentioning
confidence: 99%
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