Investigating the Melting Curve of Sapphire Using Double Shock Compression
ORAL
Abstract
Sapphire is a commonly used window material for dynamic compression experiments [1] and plays a role in solid solution with the (Mg,Fe)SiO3 system in Earth’s lower mantle [2]. Therefore, it is important to understand its equation of state, optical properties, and melting curve. By using a dynamic precompression platform, we can benchmark the equation of state of sapphire off its principal Hugoniot; namely along the melting curve at pressures nearly two time higher than using a single shock. We present measurements on the sapphire melting curve above 1 TPa which show signatures of latent heat of melting, and present changes in the reflectivity across phase transitions in the doubly shocked sapphire.
[1] Z.-G. Li et. al., Physical Review B 98, 064101 (2018)
[2] S. Gréaux et. al., Geophysical Research Letters 43, 4239 (2016)
[1] Z.-G. Li et. al., Physical Review B 98, 064101 (2018)
[2] S. Gréaux et. al., Geophysical Research Letters 43, 4239 (2016)
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Presenters
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Alexa J LaPierre
University of Rochester
Authors
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Alexa J LaPierre
University of Rochester
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Zaire Sprowal
Laboratory for Laser Energetics, University of Rochester
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Margaret F Huff
Los Alamos National Laboratory (LANL)
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Michelle C Marshall
University of Rochester
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Danae N Polsin
University of Rochester
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Gilbert W Collins
University of Rochester, Laboratory for Laser Energetics
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Ryan R Rygg
Laboratory for Laser Energetics, University of Rochester
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Linda E Hansen
Sandia National Laboratories