Abstract

Using intense magnetic pressure, a method was developed to launch flyer plates to velocities in excess of 20 km s−1. This technique was used to perform plate-impact, shock wave experiments on cryogenic liquid deuterium (LD2) to examine its high-pressure equation of state (EOS). Using an impedance matching method, Hugoniot measurements were obtained in the pressure range of 22–100 GPa. The results of these experiments disagree with the previously reported Hugoniot measurements of LD2 in the pressure range above ∼40 GPa, but are in good agreement with first principles, ab initio models for hydrogen and its isotopes.

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