Diamond at 800 GPa
journal contribution
posted on 2024-08-06, 10:20 authored by D. K. Bradley, J. H. Eggert, R. F. Smith, S. T. Prisbrey, Damien HicksDamien Hicks, D. G. Braun, J. Biener, A. V. Hamza, R. E. Rudd, G. W. CollinsA new compression technique, which enables the study of solids into the TPa regime, is described and used to ramp (or quasi-isentropically) compress diamond to a peak pressure of 1400 GPa. Diamond stress versus density data are reported to 800 GPa and suggest that the diamond phase is stable and has significant material strength up to at least this stress level. Data presented here are the highest ramp compression pressures by more than a factor of 5 and the highest-pressure solid equation-of-state data ever reported.
Funding
Lawrence Livermore National Laboratory
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ISSN
1079-7114Journal title
Physical Review LettersVolume
102Issue
7Article number
article no. 075503Pagination
075503-Publisher
American Physical SocietyCopyright statement
Copyright © 2009 American Physical Society. The published version is reproduced in accordance with the copyright policy of the publisher.Language
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