Inner core structure behind the PKP core phase triplication

Publication date

2015-06

Authors

Blom, NienkeISNI 0000000493258413
Deuss, ArwenISNI 0000000124462988
Paulssen, HannekeORCID 0000-0003-2799-7288ISNI 0000000398325278
Waszek, Lauren

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Document Type

Article
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Abstract

The structure of the Earth's inner core is not well known between depths of ∼100–200 km beneath the inner core boundary. This is a result of the PKP core phase triplication and the existence of strong precursors to PKP phases, which hinder the measurement of inner core compressional PKIKP waves at epicentral distances between roughly 143 and 148°. Consequently, interpretation of the detailed structure of deeper regions also remains difficult. To overcome these issues we stack seismograms in slowness and time, separating the PKP and PKIKP phases which arrive simultaneously but with different slowness. We apply this method to study the inner core's Western hemisphere beneath South and Central America using paths travelling in the quasi-polar direction between 140 and 150° epicentral distance, which enables us to measure PKiKP–PKIKP differential traveltimes up to greater epicentral distance than has previously been done. The resulting PKiKP–PKIKP differential traveltime residuals increase with epicentral distance, which indicates a marked increase in seismic velocity for polar paths at depths greater than 100 km compared to reference model AK135. Assuming a homogeneous outer core, these findings can be explained by either (i) inner core heterogeneity due to an increase in isotropic velocity or (ii) increase in anisotropy over the studied depth range. Although this study only samples a small region of the inner core and the current data cannot distinguish between the two alternatives, we prefer the latter interpretation in the light of previous work.

Keywords

Core, outer core and inner core, seismology, body waves, Seismic anisotropy, Geophysics

Citation

Blom, N A, Deuss, A, Paulssen, H & Waszek, L 2015, 'Inner core structure behind the PKP core phase triplication', Geophysical Journal International, vol. 201, no. 3, pp. 1657-1665. https://doi.org/10.1093/gji/ggv103