Equation-of-state data for molecular hydrogen and deuterium at shock pressures in the range 2–76 GPa (20–760 kbar)a)

1 August 1983

journal article
research article
Published by AIP Publishing in The Journal of Chemical Physics

Vol. 79 (3) , 1480-1486
https://doi.org/10.1063/1.445938

Abstract

Dynamic equation‐of‐state data for D₂ and H₂ were measured in the pressure range 2–76 GPa (20–760 kbar) using a two‐state light‐gas gun. Liquid specimens were shocked from initial states near the saturation curve at 20 K. Maximum compression was sixfold over initial liquid density at a calculated temperature of 7000 K for D₂. The data is discussed in terms of the theory of Ross et al., which includes an effective intermolecular pair potential, molecular vibration, free molecular rotation, and molecular dissociation.

Keywords

This publication has 28 references indexed in Scilit:

Equation of state of molecular hydrogen and deuterium from shock-wave experiments to 760 kbar
Physical Review A, 1983
Equation of state experiments and theory relevant to planetary modelling
Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences, 1981
A theoretical equation of state for molecular hydrogen
The Journal of Chemical Physics, 1981
Brillouin Measurements of Solid $n$ - $H_{2}$ and $n$ - $D_{2}$ to 200 kbar at Room Temperature
Physical Review Letters, 1981
Melting of Normal Hydrogen Under High Pressures Between 20 and 300 Kelvins
Science, 1981
Shock compression of aluminum, copper, and tantalum
Journal of Applied Physics, 1981
Raman Measurements of Hydrogen in the Pressure Range 0.2-630 kbar at Room Temperature
Physical Review Letters, 1980
Observations of Hydrogen at Room Temperature (25°C) and High Pressure (to 500 Kilobars)
Science, 1979
Measurement of $P$ , $V$ , $T$ , and sound velocity across the melting curve of $n$ - $H_{2}$ and $n$ - $D_{2}$ to 19 kbar
Physical Review B, 1978
Shock-Wave Compression of Liquid Deuterium to 0.9 Mbar
Physical Review Letters, 1973