Thermophysical properties of warm dense hydrogen

Bastian Holst; Ronald Redmer; Michael P. Desjarlais

arXiv:0710.1006·physics.plasm-ph·April 16, 2012

Thermophysical properties of warm dense hydrogen

Bastian Holst, Ronald Redmer, Michael P. Desjarlais

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TL;DR

This paper investigates the thermophysical properties of warm dense hydrogen using quantum molecular dynamics, providing new data on its equation of state, reflectivity, and phase transition, and comparing with experimental and theoretical models.

Contribution

It presents novel quantum molecular dynamics results for hydrogen's properties, including the nonmetal-to-metal transition at high pressure.

Findings

01

Identification of the nonmetal-to-metal transition at ~40 GPa

02

New pair distribution functions and equation of state data

03

Comparison with experimental and chemical model predictions

Abstract

We study the thermophysical properties of warm dense hydrogen using quantum molecular dynamics simulations. New results are presented for the pair distribution functions, the equation of state, the Hugoniot curve, and the reflectivity. We compare with available experimental data and predictions of the chemical picture. Especially, we discuss the nonmetal-to-metal transition which occurs at about 40 GPa in the dense fluid.

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