Publication: New Phases and Dissociation-Recombination of Hydrogen Deuteride to 3.4 Mbar
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2016
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American Physical Society (APS)
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Dias, Ranga P., Ori Noked, and Isaac F. Silvera. 2016. “New Phases and Dissociation-Recombination of Hydrogen Deuteride to 3.4 Mbar.” Physical Review Letters 116 (14) (April 8). doi:10.1103/physrevlett.116.145501.
Abstract
We present infrared absorption studies of solid hydrogen deuteride to pressures as high as 340 GPa (100 GPa ¼ 1 Mbar) in a diamond anvil cell and temperatures in the range 5–295 K. Above 198 GPa the HD sample transforms to a mixture of HD, H2, and D2, interpreted as a process of dissociation and recombination. Three new phase lines are observed, two of which differ remarkably from those of the high pressure homonuclear species, but none are metallic. The time-dependent spectral changes are analyzed to determine the molecular concentrations as a function of time; the nucleon exchange achieves steady state concentrations in ∼20 h at ∼200 GPa.
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