Use of a wave reverberation technique to infer the density compression of shocked liquid deuterium to 75 GPa

A novel approach was developed to probe density compression of liquid deuterium (L-D2) along the principal Hugoniot. Relative transit times of shock waves reverberating within the sample are shown to be sensitive to the compression due to the first shock. This technique has proven to be more sensiti...

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Veröffentlicht in:	Physical review letters 2003-01, Vol.90 (3), p.035505-035505, Article 035505
Hauptverfasser:	Knudson, M D, Hanson, D L, Bailey, J E, Hall, C A, Asay, J R
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container_title	Physical review letters
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creator	Knudson, M D Hanson, D L Bailey, J E Hall, C A Asay, J R
description	A novel approach was developed to probe density compression of liquid deuterium (L-D2) along the principal Hugoniot. Relative transit times of shock waves reverberating within the sample are shown to be sensitive to the compression due to the first shock. This technique has proven to be more sensitive than the conventional method of inferring density from the shock and mass velocity, at least in this high-pressure regime. Results in the range of 22-75 GPa indicate an approximately fourfold density compression, and provide data to differentiate between proposed theories for hydrogen and its isotopes.
doi_str_mv	10.1103/physrevlett.90.035505
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title	Use of a wave reverberation technique to infer the density compression of shocked liquid deuterium to 75 GPa
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