Geophysical Research Letters (Mar 2023)

Thermoelastic Properties of Liquid Fe‐Rich Alloys Under Martian Core Conditions

  • D. Huang,
  • Y. Li,
  • A. Khan,
  • P. Sossi,
  • D. Giardini,
  • M. Murakami

DOI
https://doi.org/10.1029/2022GL102271
Journal volume & issue
Vol. 50, no. 6
pp. n/a – n/a

Abstract

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Abstract Seismic measurements made on Mars indicate that the liquid iron‐nickel core is rich in light elements; however, the effects of these light components on the elasticity of Mars’ core remain poorly constrained. Here, we calculate elastic properties of various liquid Fe‐X (X = Ni, S, C, O and H) mixtures using ab initio molecular dynamics simulations. We find that, at martian core conditions, the addition of S and O most effectively decreases the density of liquid iron, followed by C and H, while Ni has a minimal effect. As for compressional sound velocity (Vp), C increases Vp of liquid Fe throughout Mars’ core, while both S and O reduce Vp, the intensity of which diminishes with increasing pressure. Assuming a martian core made of a binary mixture, the seismically‐inferred density would require the presence of at least 30 wt% S.