Equation of state and transport properties of low Z materials at extreme pressure

Summary form only given. Recent principle Hugoniot, pre-compressed Hugoniot, and multiple shock experiments provide equation of state data for several low Z materials including He, H/sub 2/, carbon, and SiO/sub 2/ over an unprecedented pressure-temperature-density regime. We have observed the evolut...

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Hauptverfasser:	Collins, G.W., Eggert, J., Celliers, P.M., Hicks, D., Bradley, D., Moon, S.J., Unites, W., Loubeyre, P., Jeanloz, R., McWilliams, R., Lee, K.M.
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Sprache:	eng
Schlagworte:	Electric shock Equations Helium Inorganic materials Insulation Metal-insulator structures Organic materials Plasma chemistry Plasma density Plasma temperature
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creator	Collins, G.W. Eggert, J. Celliers, P.M. Hicks, D. Bradley, D. Moon, S.J. Unites, W. Loubeyre, P. Jeanloz, R. McWilliams, R. Lee, K.M.
description	Summary form only given. Recent principle Hugoniot, pre-compressed Hugoniot, and multiple shock experiments provide equation of state data for several low Z materials including He, H/sub 2/, carbon, and SiO/sub 2/ over an unprecedented pressure-temperature-density regime. We have observed the evolution of these materials from an insulator, to a fluid metal, to a dense plasma, with increasing pressure and density from .5 to 30 Mbar, compression ratios up to 8 fold, and temperatures up to several eV. We present new equation of state and reflectivity data over this P-rho-T range, the inferred high-pressure chemistry, and implications of these data for planetary science.
doi_str_mv	10.1109/PLASMA.2004.1340071
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Recent principle Hugoniot, pre-compressed Hugoniot, and multiple shock experiments provide equation of state data for several low Z materials including He, H/sub 2/, carbon, and SiO/sub 2/ over an unprecedented pressure-temperature-density regime. We have observed the evolution of these materials from an insulator, to a fluid metal, to a dense plasma, with increasing pressure and density from .5 to 30 Mbar, compression ratios up to 8 fold, and temperatures up to several eV. 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ICOPS 2004. IEEE Conference Record - Abstracts</btitle><stitle>PLASMA</stitle><date>2004</date><risdate>2004</risdate><spage>349</spage><pages>349-</pages><issn>0730-9244</issn><eissn>2576-7208</eissn><isbn>0780383346</isbn><isbn>9780780383340</isbn><abstract>Summary form only given. Recent principle Hugoniot, pre-compressed Hugoniot, and multiple shock experiments provide equation of state data for several low Z materials including He, H/sub 2/, carbon, and SiO/sub 2/ over an unprecedented pressure-temperature-density regime. We have observed the evolution of these materials from an insulator, to a fluid metal, to a dense plasma, with increasing pressure and density from .5 to 30 Mbar, compression ratios up to 8 fold, and temperatures up to several eV. 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subjects	Electric shock Equations Helium Inorganic materials Insulation Metal-insulator structures Organic materials Plasma chemistry Plasma density Plasma temperature
title	Equation of state and transport properties of low Z materials at extreme pressure
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