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

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.
Format: Tagungsbericht
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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Zusammenfassung: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.
ISSN:0730-9244
2576-7208
DOI:10.1109/PLASMA.2004.1340071