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Atom-in-jellium equations of state and melt curves in the white dwarf regime

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arxiv 2103.03371 v1 pith:4ZZXFZSW submitted 2021-03-04 astro-ph.SR cond-mat.mtrl-sciphysics.comp-phphysics.plasm-ph

Atom-in-jellium equations of state and melt curves in the white dwarf regime

classification astro-ph.SR cond-mat.mtrl-sciphysics.comp-phphysics.plasm-ph
keywords meltelementsamplitudeatom-in-jelliumcalculationssameatomiccriterion
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Atom-in-jellium calculations of the electron states, and perturbative calculations of the Einstein frequency, were used to construct equations of state (EOS) from around $10^{-5}$ to $10^7$g/cm$^3$ and $10^{-4}$ to $10^{6}$eV for elements relevant to white dwarf (WD) stars. This is the widest range reported for self-consistent electronic shell structure calculations. Elements of the same ratio of atomic weight to atomic number were predicted to asymptote to the same $T=0$ isotherm, suggesting that, contrary to recent studies of the crystallization of WDs, the amount of gravitational energy that could be released by separation of oxygen and carbon is small. A generalized Lindemann criterion based on the amplitude of the ion-thermal oscillations calculated using atom-in-jellium theory, previously used to extrapolate melt curves for metals, was found to reproduce previous thermodynamic studies of the melt curve of the one component plasma with a choice of vibration amplitude consistent with low pressure results. For elements for which low pressure melting satisfies the same amplitude criterion, such as Al, this melt model thus gives a likely estimate of the melt curve over the full range of normal electronic matter; for the other elements, it provides a useful constraint on the melt locus.

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