Multiple-shock experiments with fluid hydrogen have shown that a transition from semi-conducting behaviour to metal-like conductivity occurs at pressures of about 100 GPa. We apply an equation of state developed recently to determine Hugoniots and isentropes in dense hydrogen and deuterium plasma in the regions of partial dissociation and partial ionization
Systematics of material responses to shock flows at high dynamic pressures are discussed. Dissipatio...
Systematics of material responses to shock flows at high dynamic pressures are discussed. Dissipatio...
Quantum molecular dynamic (QMD) simulations are introduced to study the thermophysical properties of...
We demonstrate here a laser-driven shock wave in a hydrogen sample, pre-compressed in a diamond anvi...
The electrical activity of liquid hydrogen has been measured at the high dynamic pressures, and temp...
Hydrogen, the simplest element in the universe, has a surprisingly complex phase diagram. Because of...
Hydrogen, the simplest element in the universe, has a surprisingly complex phase diagram. Because of...
. Shock compression was used to produce the first observation of a metallic state of condensed hydro...
According to theoretical predictions, insulating molecular hydrogen dissociates and transforms into ...
Hydrogen at high pressures and temperatures is challenging scientifically and has many real and pote...
Shock compression experiments carried out at Livermore using liquid deuteriurn have measured the Hug...
Establishing metallic hydrogen is a goal of intensive theoretical and experimental work since 1935 w...
The regime of high density and extreme pressure in hydrogen is very difficult to approach theoretica...
Establishing metallic hydrogen is a goal of intensive theoretical and experimental work since 1935 w...
Quantum molecular dynamic (QMD) simulations are introduced to study the thermophysical properties of...
Systematics of material responses to shock flows at high dynamic pressures are discussed. Dissipatio...
Systematics of material responses to shock flows at high dynamic pressures are discussed. Dissipatio...
Quantum molecular dynamic (QMD) simulations are introduced to study the thermophysical properties of...
We demonstrate here a laser-driven shock wave in a hydrogen sample, pre-compressed in a diamond anvi...
The electrical activity of liquid hydrogen has been measured at the high dynamic pressures, and temp...
Hydrogen, the simplest element in the universe, has a surprisingly complex phase diagram. Because of...
Hydrogen, the simplest element in the universe, has a surprisingly complex phase diagram. Because of...
. Shock compression was used to produce the first observation of a metallic state of condensed hydro...
According to theoretical predictions, insulating molecular hydrogen dissociates and transforms into ...
Hydrogen at high pressures and temperatures is challenging scientifically and has many real and pote...
Shock compression experiments carried out at Livermore using liquid deuteriurn have measured the Hug...
Establishing metallic hydrogen is a goal of intensive theoretical and experimental work since 1935 w...
The regime of high density and extreme pressure in hydrogen is very difficult to approach theoretica...
Establishing metallic hydrogen is a goal of intensive theoretical and experimental work since 1935 w...
Quantum molecular dynamic (QMD) simulations are introduced to study the thermophysical properties of...
Systematics of material responses to shock flows at high dynamic pressures are discussed. Dissipatio...
Systematics of material responses to shock flows at high dynamic pressures are discussed. Dissipatio...
Quantum molecular dynamic (QMD) simulations are introduced to study the thermophysical properties of...
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