Direct observation of an abrupt insulator-to-metal transition in dense liquid deuterium | Zendy

Marcus D. Knudson | Zendy; M. P. Desjarlais | Zendy; Andreas Becker | Zendy; Ray Lemke | Zendy; Kyle Cochrane | Zendy; M. E. Savage | Zendy; David E. Bliss | Zendy; Thomas R. Mattsson | Zendy; R. Redmer | Zendy

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Direct observation of an abrupt insulator-to-metal transition in dense liquid deuterium

Author(s) -

Marcus D. Knudson,

M. P. Desjarlais,

Andreas Becker,

Ray Lemke,

Kyle Cochrane,

M. E. Savage,

David E. Bliss,

Thomas R. Mattsson,

R. Redmer

Publication year - 2015

Publication title -

science

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 12.556

H-Index - 1186

eISSN - 1095-9203

pISSN - 0036-8075

DOI - 10.1126/science.aaa7471

Subject(s) - deuterium , planet , jupiter (rocket family) , gas giant , materials science , compression (physics) , liquid hydrogen , saturn , astrobiology , hydrogen , chemical physics , physics , atomic physics , astrophysics , astronomy , composite material , exoplanet , space shuttle , quantum mechanics

Eighty years ago, it was proposed that solid hydrogen would become metallic at sufficiently high density. Despite numerous investigations, this transition has not yet been experimentally observed. More recently, there has been much interest in the analog of this predicted metallic transition in the dense liquid, due to its relevance to planetary science. Here, we show direct observation of an abrupt insulator-to-metal transition in dense liquid deuterium. Experimental determination of the location of this transition provides a much-needed benchmark for theory and may constrain the region of hydrogen-helium immiscibility and the boundary-layer pressure in standard models of the internal structure of gas-giant planets.

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