Melting curves of molecular hydrogen and molecular deuterium under high pressures between 20 and 373 K

1 July 1985

journal article
research article
Published by American Physical Society (APS) in Physical Review B

Vol. 32 (1) , 381-389
https://doi.org/10.1103/physrevb.32.381

Abstract

We determined the melting curve of molecular hydrogen and molecular deuterium at closely spaced intervals from 20 to 373 K by two different techniques using high-pressure diamond cells. The cells were loaded with liquid at low temperature or with compressed gas at room temperature. Empirical functions for the melting curves were evaluated from least-squares fits of the data. Values of the compressibility and Debye temperature were computed at melting, and the results are compared with those calculated from various theoretical models. The good agreement shows that the models are generally valid, although small systematic deviations may point the way toward refinements in modeling. Our study also demonstrates the need to determine a one-piece intermolecular potential valid over a wide pressure range by refitting all experimental data, including the shock data recently made available.

Keywords

This publication has 32 references indexed in Scilit:

Equation-of-state data for molecular hydrogen and deuterium at shock pressures in the range 2–76 GPa (20–760 kbar)a)
The Journal of Chemical Physics, 1983
Melting of Normal Hydrogen Under High Pressures Between 20 and 300 Kelvins
Science, 1981
Raman Spectrum of Solid Orthodeuterium to 150 kbar at 5 K
Physical Review Letters, 1980
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
High-Pressure Physics: Sustained Static Generation of 1.36 to 1.72 Megabars
Science, 1978
Properties of solid and gaseous hydrogen, based upon anisotropic pair interactions
Physical Review A, 1975
Experimental compressions for normal hydrogen and normal deuterium to 25 kbar at 4.2 K
Physical Review B, 1974
Character of the Pair Interaction in Solid and Gaseous $H_{2}$
Physical Review Letters, 1974
Some theoretical aspects of melting
Il Nuovo Cimento (1869-1876), 1958
Melting Curves of $H_{2}$ , $D_{2}$ , and $T_{2}$ up to 3500 kg/ ${cm}^{2}$
Physical Review B, 1956