Progress in Earth and Planetary Science (Jun 2020)

The sound velocity of wüstite at high pressures: implications for low-velocity anomalies at the base of the lower mantle

  • Ryosuke Tanaka,
  • Tatsuya Sakamaki,
  • Eiji Ohtani,
  • Hiroshi Fukui,
  • Seiji Kamada,
  • Akio Suzuki,
  • Satoshi Tsutsui,
  • Hiroshi Uchiyama,
  • Alfred Q. R. Baron

DOI
https://doi.org/10.1186/s40645-020-00333-3
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 7

Abstract

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Abstract The longitudinal sound velocity (V P ) and the density (ρ) of wüstite, FeO, were measured at pressures of up to 112.3 GPa and temperatures of up to 1700 K using both inelastic X-ray scattering and X-ray diffraction combined with a laser-heated diamond-anvil cell. The linear relationship between V P and ρ, Birch’s law, for wüstite can be expressed as V P = 1.55 (1) × ρ [g/cm3] − 2.03 (8) [km/s] at 300 K and V P = 1.61 (1) × ρ [kg/m3] − 2.82 (10) [km/s] at 1700 K. The sound velocity of wüstite is significantly lower than that of bridgmanite and ferropericlase under lower mantle conditions. In other words, the existence of wüstite in the lower mantle can efficiently decrease the seismic velocity. Considering its slow velocity and several mechanisms for the formation of FeO-rich regions at the core–mantle boundary, we confirm earlier suggestions indicating that wüstite enrichment at the bottom of the Earth’s mantle may contribute to the formation of denser ultra-low velocity zones.

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