Gil Shohet scite author profile

Gil Shohet

3Publications

13Citation Statements Received

67Citation Statements Given

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103

Affiliations

Stanford University, Vaughn College of Aeronautics and Technology, University of Illinois Urbana-Champaign

Publications

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Liquid‐Vapor Coexistence and Critical Point of Mg₂SiO₄ From Ab Initio Simulations

Townsend

Shohet

Cochrane

2020

Geophysical Research Letters

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Hypervelocity impact‐driven vaporization is characteristic of late‐stage planet formation. Yet the behavior and properties of liquid‐vapor mixtures of planetary materials of interest are typically unknown. Multiphase equations of state used in hydrodynamic simulations of planet impacts therefore lack reliable data for this important phenomenon. Here, we present the first constraints on the liquid‐vapor critical point and coexistence phase boundary of Mg2SiO4 computed from ab initio molecular dynamics simulations. We found that the vapor is depleted in magnesium and enriched in silica and oxygen, while the coexisting liquid is enriched in magnesium and depleted in oxygen, from which we infer vaporization is incongruent. The critical point was estimated from an equation of state fit to the data. The results are in line with recent calculations of MgSiO3 and together confirm that extant multiphase equation of state (EOS) models used in planetary accretion modeling significantly underestimate the amount of supercritical material postimpact.

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Microscopic ejecta measurements from hypervelocity impacts on aluminum and powdered regolith targets

Shohet

Estacio

Matthews

et al. 2021

International Journal of Impact Engineering

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Dust and atmospheric influence on plasma properties observed in light gas gun hypervelocity impact experiments

Estacio

Shohet

Young

et al. 2021

International Journal of Impact Engineering

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Gil Shohet

Liquid‐Vapor Coexistence and Critical Point of Mg₂SiO₄ From Ab Initio Simulations

Microscopic ejecta measurements from hypervelocity impacts on aluminum and powdered regolith targets

Dust and atmospheric influence on plasma properties observed in light gas gun hypervelocity impact experiments

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Gil Shohet

Liquid‐Vapor Coexistence and Critical Point of Mg2SiO4 From Ab Initio Simulations

Microscopic ejecta measurements from hypervelocity impacts on aluminum and powdered regolith targets

Dust and atmospheric influence on plasma properties observed in light gas gun hypervelocity impact experiments

Contact Info

Product

Resources

About

Liquid‐Vapor Coexistence and Critical Point of Mg₂SiO₄ From Ab Initio Simulations