A first modeling of dynamic and static crustal strain field from near-field dilatation measurements: example of the 2013 $$M_w$$ 6.2 Ruisui earthquake,Taiwan |
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Authors: | Alexandre Canitano Ya-Ju Hsu Hsin-Ming Lee Alan T. Linde Selwyn Sacks |
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Affiliation: | 1.Institute of Earth Sciences,Academia Sinica,Nankang,Taiwan;2.Department of Terrestrial Magnetism,Carnegie Institution of Washington,Washington,USA |
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Abstract: | We analyze the high-resolution dilatation data for the October 2013 (M_w) 6.2 Ruisui, Taiwan, earthquake, which occurred at a distance of 15–20 km away from a Sacks–Evertson dilatometer network. Based on well-constrained source parameters ((hbox {strike}=217^circ ), (hbox {dip}=48^circ ), (hbox {rake}=49^circ )), we propose a simple rupture model that explains the permanent static deformation and the dynamic vibrations at short period ((sim )3.5–4.5 s) for most of the four sites with less than 20 % of discrepancies. This study represents a first attempt of modeling simultaneously the dynamic and static crustal strain using dilatation data. The results illustrate the potential for strain recordings of high-frequency seismic waves in the near-field of an earthquake to add constraints on the properties of seismic sources. |
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