Investigating Near Surface S-Wave Velocity Properties Using Ambient Noise in Southwestern Taiwan

Abstract The 2019 Ridgecrest, California, earthquake sequence included Mw 6.4 and 7.1 earthquakes that occurred on successive days beginning on 4 July 2019. These two largest earthquakes of the sequence occurred on orthogonal faults that ruptured the Earth’s surface. To better evaluate the 3D subsurface fault structure, (P- and S-wave) velocity, 3D and temporal variations in seismicity, and other important aspects of the earthquake sequence, we recorded aftershocks and ambient noise using up to 461 three-component nodal seismographs for about two months, beginning about one day after the Mw 7.1 mainshock. The ∼30,000Mw≥1 earthquakes that were recorded on the dense arrays provide an unusually large volume of data with which to evaluate the earthquake sequence. This report describes the recording arrays and is intended to provide metadata for researchers interested in evaluating various aspects of the 2019 Ridgecrest earthquake sequence using the nodal data set.

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The potential of seismic cross-hole tomography for geotechnical site investigation

E3S Web of Conferences ◽

10.1051/e3sconf/20199218006 ◽

2019 ◽

Vol 92 ◽

pp. 18006

Author(s):

Yannick Choy Hing Ng ◽

William Danovan ◽

Taeseo Ku

Keyword(s):

Wave Velocity ◽

Site Investigation ◽

Velocity Model ◽

P Wave ◽

Reconstruction Technique ◽

Sufficient Information ◽

Eastern Region ◽

S Wave ◽

Near Surface ◽

Soil Layers

Seismic cross-hole tomography has been commonly used in oil and gas exploration and the mining industry for the detection of precious resources. For near-surface geotechnical site investigation, this geophysical method is relatively new and can be used to supplement traditional methods such as the standard penetration test, coring and sampling, thus improving the effectiveness of site characterization. This paper presents a case study which was carried out on a reclaimed land in the Eastern region of Singapore. A seismic cross-hole test was performed by generating both compressional waves and shear waves into the ground. The signals were interpreted by using first-arrival travel time wave tomography and the arrival times were subsequently inverted using Simultaneous Iterative Reconstruction Technique (SIRT). A comparison with the borehole logging data indicated that P-wave velocity model cannot provide sufficient information about the soil layers, especially when the ground water table is near the surface. The S-wave velocity model seemed to agree quite well with the variation in the SPT-N value and could identify to a certain extent the interface between the different soil layers. Finally, P-wave and S-wave velocities are used to compute the Poisson's ratio distribution which gave a good indication of the degree of saturation of the soil.

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Near‐surface S‐wave velocity estimation from P‐wave polarization analysis

10.1190/1.3255780 ◽

2009 ◽

Author(s):

Pascal Edme ◽

Ed Kragh

Keyword(s):

Wave Velocity ◽

Velocity Estimation ◽

P Wave ◽

Wave Polarization ◽

Polarization Analysis ◽

S Wave ◽

Near Surface

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