Global scale observations of scattered energy near the inner-core boundary: Seismic constraints on the base of the outer-core

https://doi.org/10.1016/j.pepi.2015.06.005Get rights and content
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Highlights

  • A large global dataset of core phases has been collected.

  • We identified scattering in the coda of the PKPbc and PKPbc-diff.

  • After exploration of possible location, the scattering must originate near the ICB.

  • Models of the base of the outer-core are explored to try to predict the scattering.

Abstract

We have collected a global dataset of several thousands of high quality records of PKPdf, PKPbc, PKPbc-diff and PKPab phase arrivals in the distance range [149–178°]. Within this collection, we have identified an energy packet that arrives 5–20 s after the PKPbc (or PKPbc-diff) and represents a phase that is not predicted by 1D reference seismic models. We use array analysis techniques to enhance the signal of these scattered phases and show that they originate along the great-circle path in a consistent range of arrival times and narrow range of ray parameters. We therefore refer to this scattered energy the “M” phase. Using the cross-correlation technique to detect and measure the scattered energy arrival times, we compiled a dataset of 1116 records of this M phase. There are no obvious variations with source or station location, nor with the depth of the source. After exploration of possible location for this M phase, we show that its origin is most likely in the vicinity of the inner-core boundary. A tentative model is found that predicts an M-like phase, and produces good fits to its travel times as well as those of the main core phases. In this model, the P velocity profile with depth exhibits an increased gradient from about 400 km to 50 km above the ICB (i.e. slightly faster velocities than in AK135 or PREM), and a 50 km thick lower velocity layer right above the ICB.

Keywords

PKP scattering
Outer-core
PKPbc
PKPbc-diff

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