Full-waveform tomography reveals iron spin crossover in Earth lower mantle

Publication date

2023-03-09

Authors

Cobden, LauraISNI 0000000394182257
Zhuang, Jingyi
Lei, Wenjie
Wentzcovitch, Renata
Trampert, JeannotISNI 0000000392661211
Tromp, JeroenISNI 0000000049976558

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Document Type

/dk/atira/pure/researchoutput/researchoutputtypes/workingpaper/preprint
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Abstract

Joint interpretation of bulk and shear wave speeds constrains the chemistry of the deep mantle. At all depths, the diversity of wave speeds cannot be explained by an isochemical mantle. Between 1000 and 2500 km depth, hypothetical mantle models containing an electronic spin crossover in (Mg,Fe)O provide a significantly better fit to the wave-speed distributions, as well as more realistic temperatures and silica contents, than models without a spin crossover. Below 2500 km, wave speed distributions are explained by enrichment in silica towards the core-mantle-boundary. This silica enrichment may represent the fractionated remains of an ancient basal magma ocean.

Keywords

physics.geo-ph

Citation

Cobden, L, Zhuang, J, Lei, W, Wentzcovitch, R, Trampert, J & Tromp, J 2023 'Full-waveform tomography reveals iron spin crossover in Earth lower mantle' arXiv, pp. 1-40. https://doi.org/10.48550/arXiv.2303.05476