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Establishing gold and platinum standards to 1 terapascal using shockless compression

D. E. Fratanduono, M. Millot, D. G. Braun, S. J. Ali, A. Fernandez-Pañella, Christopher Seagle, Jean‐Paul Davis, Justin Brown, Yuichi Akahama, Richard Kraus, M. C. Marshall, R. F. Smith, Earl F. O’Bannon, J. M. McNaney, J. H. Eggert

2021Science104 citationsDOIOpen Access PDF

Abstract

New techniques are advancing the frontier of high-pressure physics beyond 1 terapascal, leading to new discoveries and offering stringent tests for condensed-matter theory and advanced numerical methods. However, the ability to absolutely determine the pressure state remains challenging, and well-calibrated pressure-density reference materials are required. We conducted shockless dynamic compression experiments at the National Ignition Facility and the Z machine to obtain quasi-absolute, high-precision, pressure-density equation-of-state data for gold and platinum. We derived two experimentally constrained pressure standards to terapascal conditions. Establishing accurate experimental determinations of extreme pressure will facilitate better connections between experiments and theory, paving the way toward improving our understanding of material response to these extreme conditions.

Topics & Concepts

PlatinumCalibrationCompression (physics)Gold standard (test)Diamond anvil cellScale (ratio)DiamondHigh pressureWork (physics)Environmental scienceMaterials scienceEngineering physicsNuclear engineeringNanotechnologyChemistryMathematicsPhysicsMetallurgyThermodynamicsEngineeringStatisticsComposite materialBiochemistryQuantum mechanicsCatalysisHigh-pressure geophysics and materialsDiamond and Carbon-based Materials ResearchForce Microscopy Techniques and Applications
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