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Crystal structure and equation of state of Fe-Si alloys at super-Earth core conditions.


ABSTRACT: The high-pressure behavior of Fe alloys governs the interior structure and dynamics of super-Earths, rocky extrasolar planets that could be as much as 10 times more massive than Earth. In experiments reaching up to 1300 GPa, we combine laser-driven dynamic ramp compression with in situ x-ray diffraction to study the effect of composition on the crystal structure and density of Fe-Si alloys, a potential constituent of super-Earth cores. We find that Fe-Si alloy with 7 weight % (wt %) Si adopts the hexagonal close-packed structure over the measured pressure range, whereas Fe-15wt%Si is observed in a body-centered cubic structure. This study represents the first experimental determination of the density and crystal structure of Fe-Si alloys at pressures corresponding to the center of a ~3-Earth mass terrestrial planet. Our results allow for direct determination of the effects of light elements on core radius, density, and pressures for these planets.

SUBMITTER: Wicks JK 

PROVIDER: S-EPMC5916515 | biostudies-literature | 2018 Apr

REPOSITORIES: biostudies-literature

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Crystal structure and equation of state of Fe-Si alloys at super-Earth core conditions.

Wicks June K JK   Smith Raymond F RF   Fratanduono Dayne E DE   Coppari Federica F   Kraus Richard G RG   Newman Matthew G MG   Rygg J Ryan JR   Eggert Jon H JH   Duffy Thomas S TS  

Science advances 20180425 4


The high-pressure behavior of Fe alloys governs the interior structure and dynamics of super-Earths, rocky extrasolar planets that could be as much as 10 times more massive than Earth. In experiments reaching up to 1300 GPa, we combine laser-driven dynamic ramp compression with in situ x-ray diffraction to study the effect of composition on the crystal structure and density of Fe-Si alloys, a potential constituent of super-Earth cores. We find that Fe-Si alloy with 7 weight % (wt %) Si adopts th  ...[more]

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