A new estimate of shear-wave speed in the Earth's inner core

Date

2023

Authors

Costa de Lima, Thuany
Pham, Thanh Son
Ma, Xiaolong
Tkalcic, Hrvoje

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Volume Title

Publisher

Springer Nature

Abstract

Observations of seismic body waves that traverse the Earth’s inner core (IC) as shear (J) waves are critical for understanding the IC shear properties, advancing our knowledge of the Earth’s internal structure and evolution. Here, we present several seismological observations of J phases detected in the earthquake late-coda correlation wavefield at periods of 15–50s, notably via the correlation feature I-J, found to be independent of the Earth reference velocity model. Because I-J is unaffected by compressional wave speeds of the Earth’s inner core, outer core, and mantle, it represents an autonomous class of seismological measurements to benchmark the inner core properties. We estimate the absolute shear-wave speedintheICtobe3.39±0.02km/snear thetopand3.54±0.02km/sinthecenter,lowerthanrecentlyreportedvalues. This is a 3.4 ± 0.5% reduction from the Preliminary Reference Earth Model (PREM), suggesting a less rigid IC than previously estimated from the normal mode data. Such a low shear-wave speed requires re-evaluating IC composition, including the abundance of light elements, the atomic properties and stable crystallographic phase of iron, and the IC solidification process.

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Source

Nature Communications

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Journal article

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Open Access

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Creative Commons Attribution License

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