D. M. Gold scite author profile

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.

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Shock-Induced Transformation of Liquid Deuterium into a Metallic Fluid

Celliers

et al. 2000

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Simultaneous measurements of shock velocity and optical reflectance at 1064, 808, and 404 nm of a high pressure shock front propagating through liquid deuterium show a continuous increase in reflectance from below 10% and saturating at approximately (40-60)% in the range of shock velocities from 12 to 20 &mgr;m/ns (pressure range 17-50 GPa). The high optical reflectance is evidence that the shocked deuterium reaches a conducting state characteristic of a metallic fluid. Above 20 &mgr;m/ns shock velocity (50 GPa pressure) reflectance is constant indicating that the transformation is substantially complete.

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Long-wavelength InP-based quantum-dash lasers

Schwertberger

Gold

Reithmaier

et al. 2002

IEEE Photon. Technol. Lett.

169

102

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LIBS using dual- and ultra-short laser pulses

Angel

Stratis

Eland

et al. 2001

Fresenius' Journal of Analytical Chemistry

136

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D. M. Gold

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

Shock-Induced Transformation of Liquid Deuterium into a Metallic Fluid

Long-wavelength InP-based quantum-dash lasers

LIBS using dual- and ultra-short laser pulses

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