Laser-Shock Compression and Hugoniot Measurements of Liquid Hydrogen to 55 GPa

A. Iwamoto; A. Shiroshita; H. Takahashi; K. Mima; K. Miyanishi; K. Otani; K. Shigemori; K. Shimizu; M. Ikoma; M. Nakai

arxiv: 1101.1143 · v1 · pith:HMPAP2LYnew · submitted 2011-01-06 · ❄️ cond-mat.mtrl-sci · astro-ph.EP

Laser-Shock Compression and Hugoniot Measurements of Liquid Hydrogen to 55 GPa

T. Sano , N. Ozaki , T. Sakaiya , K. Shigemori , M. Ikoma , T. Kimura , K. Miyanishi , T. Endo

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A. Shiroshita H. Takahashi T. Jitsui Y. Hori Y. Hironaka A. Iwamoto T. Kadono M. Nakai T. Okuchi K. Otani K. Shimizu T. Kondo R. Kodama K. Mima

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classification ❄️ cond-mat.mtrl-sci astro-ph.EP

keywords hydrogenshockliquidhugoniotcompressedcompressiondensitydeuterium

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The principal Hugoniot for liquid hydrogen was obtained up to 55 GPa under laser-driven shock loading. Pressure and density of compressed hydrogen were determined by impedance-matching to a quartz standard. The shock temperature was independently measured from the brightness of the shock front. Hugoniot data of hydrogen provide a good benchmark to modern theories of condensed matter. The initial number density of liquid hydrogen is lower than that for liquid deuterium, and this results in shock compressed hydrogen having a higher compression and higher temperature than deuterium at the same shock pressure.

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Laser-Shock Compression and Hugoniot Measurements of Liquid Hydrogen to 55 GPa

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