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arxiv: 1806.02726 · v1 · pith:JBRNQJNT · submitted 2018-06-07 · physics.plasm-ph · physics.atom-ph

Ab-initio simulations and measurements of the free-free opacity in Aluminum

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classification physics.plasm-ph physics.atom-ph
keywords opacityfree-freecalculationsacrosscorrectionsimportancemattermeasurements
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The free-free opacity in dense systems is a property that both tests our fundamental understanding of correlated many-body systems, and is needed to understand the radiative properties of high energy-density plasmas. Despite its importance, predictive calculations of the free-free opacity remain challenging even in the condensed matter phase for simple metals. Here we show how the free-free opacity can be modelled at finite-temperatures via time-dependent density functional theory, and illustrate the importance of including local field corrections, core polarization and self-energy corrections. Our calculations for ground-state Al are shown to agree well with experimental opacity measurements performed on the Artemis laser facility across a wide range of x-ray to ultraviolet wavelengths. We extend our calculations across the melt to the warm-dense matter regime, and find good agreement with advanced plasma models based on inverse bremsstrahlung at temperatures above 10 eV.

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