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Fine Structure of the Chenghai Fault Zone, Yunnan, China, Constrained From Teleseismic Travel Time and Ambient Noise Tomography

Hongfeng Yang, Yaohui Duan, Junhao Song, Xiaohuan Jiang, Xiaofeng Tian, Wei Yang, Weitao Wang, Jun Yang

2020Journal of Geophysical Research Solid Earth78 citationsDOI

Abstract

Abstract To derive high‐resolution fault zone (FZ) structure of the Chenghai fault in Yunnan, southwestern China, we deployed a linear dense array crossing the fault from January to February 2018. The array consisted of 158 short‐period (5 s) three‐component instruments and spanned an aperture of ~8 km with average station spacing of 40–50 m. During the 1‐month deployment, 20 teleseismic earthquakes with moment magnitudes larger than 5.5 and 41 local earthquakes were recorded. We first analyzed the travel times of P and S waves from teleseismic earthquakes to determine the boundaries of the FZ. After correcting the station‐event geometry effects, teleseismic travel time differences between the reference station, and all other stations clearly marked a zone of 3.4 km in width with distinct travel time anomaly, suggesting a low‐velocity zone (LVZ) surrounding the Chenghai fault. We then conducted ambient noise tomography and found that the S wave velocity of the LVZ was reduced by 60% and 40% compared to the northwest and southeast of the LVZ, respectively. Our ambient noise results suggested the LVZ extending to ~1.5 km in depth, consistent with the travel time anomalies of teleseismic earthquakes. Integrating ambient noise tomography with teleseismic travel times in a dense array with such an aperture is an effective approach for resolving FZ structure and depth extent.

Topics & Concepts

SeismologyGeologyFault (geology)Noise (video)Ambient noise levelGeodesySeismic arraySeismic tomographyAnomaly (physics)Travel timeAperture (computer memory)GeophysicsSound (geography)PhysicsAcousticsGeomorphologyImage (mathematics)Computer scienceMantle (geology)Condensed matter physicsEngineeringArtificial intelligenceTransport engineeringSeismic Waves and Analysisearthquake and tectonic studiesEarthquake Detection and Analysis
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