Litcius/Paper detail

Nonlinear Earthquake Response of Marine Sediments With Distributed Acoustic Sensing

Loïc Viens, Luis Fabián Bonilla, Zack Spica, Kiwamu Nishida, Tomoaki Yamada, Masanao Shinohara

2022Geophysical Research Letters40 citationsDOIOpen Access PDF

Abstract

Abstract Soft sediment layers can significantly amplify seismic waves from earthquakes. Large dynamic strains can trigger a nonlinear response of shallow soils with low strength, which is characterized by a shift of resonance frequencies, ground motion deamplification, and in some cases, soil liquefaction. We investigate the response of marine sediments during earthquake ground motions recorded along a fiber‐optic cable offshore the Tohoku region, Japan, with distributed acoustic sensing (DAS). We compute AutoCorrelation Functions (ACFs) of the ground motions from 105 earthquakes in different frequency bands. We detect time delays in the ACF waveforms that are converted to relative velocity changes ( dv / v ). dv / v drops, which characterize soil nonlinearity, are observed during the strongest ground motions and exhibit a large variability along the cable. This study demonstrates that DAS can be used to infer the dynamic properties of the shallow Earth with an unprecedented spatial resolution.

Topics & Concepts

GeologySeismologySubmarine pipelineWaveformNonlinear systemLiquefactionSedimentStrong ground motionGround motionGeotechnical engineeringGeomorphologyPhysicsVoltageQuantum mechanicsSeismic Waves and AnalysisGeophysics and Sensor TechnologyAdvanced Fiber Optic Sensors