Measurements of the Equation of State of Deuterium at the Fluid Insulator- Metal Transition

Measurements of the Equation of State of Deuterium at the Fluid Insulator- Metal Transition

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 increas...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 1998-08, Vol.281 (5380), p.1178-1181
Hauptverfasser: Collins, G. W., da Silva, L. B., Celliers, P., Gold, D. M., Foord, M. E., Wallace, R. J., Ng, A., Weber, S. V., Budil, K. S., Cauble, R.
Format: Artikel
Sprache:eng
Schlagworte:
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Density
Deuterium
Electron states
Exact sciences and technology
Fluid dynamics
Fluids
Fringe
Grade Point Average
High pressure effects
Hydrogen
Isotopes
Lasers
Liquids
Materials at high pressures
Metal-insulator transitions and other electronic transitions
Optical reflection
Physics
Radiography
Scientific Concepts
Shock fronts
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Zusammenfassung: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.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.281.5380.1178