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Paper detail

Optical conductivity of warm dense matter in wide frequency range within quantum statistical and kinetic approach

Fundamental properties of warm dense matter are described by the dielectric function, which gives access to the frequency-dependent electrical conductivity, absorption, emission and scattering of radiation, charged particles stopping and further macroscopic properties. Different approaches to the dielectric function and the related dynamical collision frequency are compared in a wide frequency range. The high-frequency limit describing inverse bremsstrahlung and the low-frequency limit of the dc conductivity are considered. Sum rules and Kramers-Kronig relation are checked for the generalized linear response theory and the standard approach following kinetic theory. The results are discussed in application to aluminum, xenon and argon plasmas.

preprint2016arXivOpen access
M. VeysmanG. RöpkeM. WinkelH. Reinholz
physics.plasm-ph
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M. VeysmanG. RöpkeM. WinkelH. Reinholz

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