Measurements of the Equation of State of Deuterium at the Fluid Insulator-Metal Transition
- 21 August 1998
- journal article
- other
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 281 (5380) , 1178-1181
- https://doi.org/10.1126/science.281.5380.1178
Abstract
A high-intensity laser was used to shock-compress liquid deuterium to pressures from 22 to 340 gigapascals. In this regime deuterium is predicted to transform from an insulating molecular fluid to an atomic metallic fluid. Shock densities and pressures, determined by radiography, revealed an increase in compressibility near 100 gigapascals indicative of such a transition. Velocity interferometry measurements, obtained by reflecting a laser probe directly off the shock front in flight, demonstrated that deuterium shocked above 55 gigapascals has an electrical conductivity characteristic of a liquid metal and independently confirmed the radiography.Keywords
This publication has 33 references indexed in Scilit:
- Linear-mixing model for shock-compressed liquid deuteriumPhysical Review B, 1998
- Molecular-dynamics modeling of the Hugoniot of shocked liquid deuteriumPhysical Review B, 1997
- Shocking Matter to Extreme ConditionsScience, 1997
- Absolute Equation of State Measurements on Shocked Liquid Deuterium up to 200 GPa (2 Mbar)Physical Review Letters, 1997
- A Theory of Extrasolar Giant PlanetsThe Astrophysical Journal, 1996
- Recent results from the Nova program at LLNLLaser and Particle Beams, 1991
- Theory of high-pressure phases of hydrogenPhysical Review Letters, 1989
- 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
- Laser interferometer for measuring high velocities of any reflecting surfaceJournal of Applied Physics, 1972
- Internal Structure and Energy Emission of JupiterNature, 1967