Insulator-metal transition in dense fluid deuterium

Peter M. Celliers; Marius Millot; Stephanie Brygoo; R. Stewart McWilliams; Dayne E. Fratanduono; J. Ryan Rygg; Alexander F. Goncharov; Paul Loubeyre; Jon H. Eggert; J. Luc Peterson; Nathan B. Meezan; Sebastien Le Pape; Gilbert W. Collins; Raymond Jeanloz; Russell J. Hemley

doi:10.1126/science.aat0970

Insulator-metal transition in dense fluid deuterium

Peter M. Celliers
, Marius Millot
, Stephanie Brygoo
, R. Stewart McWilliams
, Dayne E. Fratanduono
, J. Ryan Rygg
, Alexander F. Goncharov
, Paul Loubeyre
, Jon H. Eggert
, J. Luc Peterson
, Nathan B. Meezan
, Sebastien Le Pape
, Gilbert W. Collins
, Raymond Jeanloz
, Russell J. Hemley

Lawrence Livermore National Laboratory
CEA/UVSQ/CNRS
University of Edinburgh
University of Rochester
Carnegie Institution of Washington
University of California, Berkeley
George Washington University

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

Dense fluid metallic hydrogen occupies the interiors of Jupiter, Saturn, and many extrasolar planets, where pressures reach millions of atmospheres. Planetary structure models must describe accurately the transition from the outer molecular envelopes to the interior metallic regions. We report optical measurements of dynamically compressed fluid deuterium to 600 gigapascals (GPa) that reveal an increasing refractive index, the onset of absorption of visible light near 150 GPa, and a transition to metal-like reflectivity (exceeding 30%) near 200 GPa, all at temperatures below 2000 kelvin. Our measurements and analysis address existing discrepancies between static and dynamic experiments for the insulator-metal transition in dense fluid hydrogen isotopes. They also provide new benchmarks for the theoretical calculations used to construct planetary models.

langue originale	Anglais
Pages (de - à)	677-682
Nombre de pages	6
journal	Science
Volume	361
Numéro de publication	6403
Les DOIs	https://doi.org/10.1126/science.aat0970
état	Publié - 17 août 2018
Modification externe	Oui

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10.1126/science.aat0970

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title = "Insulator-metal transition in dense fluid deuterium",

abstract = "Dense fluid metallic hydrogen occupies the interiors of Jupiter, Saturn, and many extrasolar planets, where pressures reach millions of atmospheres. Planetary structure models must describe accurately the transition from the outer molecular envelopes to the interior metallic regions. We report optical measurements of dynamically compressed fluid deuterium to 600 gigapascals (GPa) that reveal an increasing refractive index, the onset of absorption of visible light near 150 GPa, and a transition to metal-like reflectivity (exceeding 30\%) near 200 GPa, all at temperatures below 2000 kelvin. Our measurements and analysis address existing discrepancies between static and dynamic experiments for the insulator-metal transition in dense fluid hydrogen isotopes. They also provide new benchmarks for the theoretical calculations used to construct planetary models.",

author = "Celliers, \{Peter M.\} and Marius Millot and Stephanie Brygoo and McWilliams, \{R. Stewart\} and Fratanduono, \{Dayne E.\} and Rygg, \{J. Ryan\} and Goncharov, \{Alexander F.\} and Paul Loubeyre and Eggert, \{Jon H.\} and Peterson, \{J. Luc\} and Meezan, \{Nathan B.\} and \{Le Pape\}, Sebastien and Collins, \{Gilbert W.\} and Raymond Jeanloz and Hemley, \{Russell J.\}",

note = "Publisher Copyright: {\textcopyright} 2017 The Authors, some rights reserved.",

year = "2018",

month = aug,

day = "17",

doi = "10.1126/science.aat0970",

language = "English",

volume = "361",

pages = "677--682",

journal = "Science",

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TY - JOUR

T1 - Insulator-metal transition in dense fluid deuterium

AU - Celliers, Peter M.

AU - Millot, Marius

AU - Brygoo, Stephanie

AU - McWilliams, R. Stewart

AU - Fratanduono, Dayne E.

AU - Rygg, J. Ryan

AU - Goncharov, Alexander F.

AU - Loubeyre, Paul

AU - Eggert, Jon H.

AU - Peterson, J. Luc

AU - Meezan, Nathan B.

AU - Le Pape, Sebastien

AU - Collins, Gilbert W.

AU - Jeanloz, Raymond

AU - Hemley, Russell J.

PY - 2018/8/17

Y1 - 2018/8/17

N2 - Dense fluid metallic hydrogen occupies the interiors of Jupiter, Saturn, and many extrasolar planets, where pressures reach millions of atmospheres. Planetary structure models must describe accurately the transition from the outer molecular envelopes to the interior metallic regions. We report optical measurements of dynamically compressed fluid deuterium to 600 gigapascals (GPa) that reveal an increasing refractive index, the onset of absorption of visible light near 150 GPa, and a transition to metal-like reflectivity (exceeding 30%) near 200 GPa, all at temperatures below 2000 kelvin. Our measurements and analysis address existing discrepancies between static and dynamic experiments for the insulator-metal transition in dense fluid hydrogen isotopes. They also provide new benchmarks for the theoretical calculations used to construct planetary models.

AB - Dense fluid metallic hydrogen occupies the interiors of Jupiter, Saturn, and many extrasolar planets, where pressures reach millions of atmospheres. Planetary structure models must describe accurately the transition from the outer molecular envelopes to the interior metallic regions. We report optical measurements of dynamically compressed fluid deuterium to 600 gigapascals (GPa) that reveal an increasing refractive index, the onset of absorption of visible light near 150 GPa, and a transition to metal-like reflectivity (exceeding 30%) near 200 GPa, all at temperatures below 2000 kelvin. Our measurements and analysis address existing discrepancies between static and dynamic experiments for the insulator-metal transition in dense fluid hydrogen isotopes. They also provide new benchmarks for the theoretical calculations used to construct planetary models.

U2 - 10.1126/science.aat0970

DO - 10.1126/science.aat0970

M3 - Article

C2 - 30115805

AN - SCOPUS:85053616664

SN - 0036-8075

VL - 361

SP - 677

EP - 682

JO - Science

JF - Science

IS - 6403

ER -

Insulator-metal transition in dense fluid deuterium

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