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Article Dans Une Revue Pure and Applied Geophysics Année : 2021

Understanding Micropolar Theory in the Earth Sciences II: The Seismic Moment Tensor

Résumé

Seismic events produced by block rotations about vertical axis occur in many geodynamic contexts. In this study, we show that these rotations can be accounted for using the proper theory, namely micropolar theory, and a new asymmetric moment tensor can be derived. We then apply this new theory to the Kaikōura earthquake (2016/11/14), Mw 7.8, one of the most complex earthquakes ever recorded with modern instrumental techniques. Using advanced numerical techniques, we compute synthetic seismograms including a full asymmetric moment tensor and we show that it induces measurable differences in the waveforms proving that seismic data can record the effects of the block rotations observed in the field. Therefore, the theory developed in this work provides a full framework for future dynamic source inversions of asymmetric moment tensors.
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Dates et versions

hal-03433239 , version 1 (17-11-2021)

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Rafael Abreu, Stephanie Durand. Understanding Micropolar Theory in the Earth Sciences II: The Seismic Moment Tensor. Pure and Applied Geophysics, 2021, ⟨10.1007/s00024-021-02894-w⟩. ⟨hal-03433239⟩
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