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TitlePolarization and velocities of shear waves using high resolution multi-component seismic reflection
AuthorPugin, A; Crow, HORCID logo; Hunter, J; Perret, D; Pullan, S
SourceSymposium on the Application of Geophysics to Engineering and Environmental Problems (SAGEEP) 2013 syposium, abstracts; 2013 p. 1,
Alt SeriesEarth Sciences Sector, Contribution Series 20120379
PublisherEnvironment and Engineering Geophysical Society
MeetingSAGEEP syposium; Denver, CO; US; March 17-21, 2013
Mediaon-line; digital
File formatpdf
Subjectsgeophysics; seismic interpretations; seismic reflection surveys; reflection studies; p waves; s waves; polarization
ProgramGroundwater Geoscience, Aquifer Assessment & support to mapping
Released2013 05 28
AbstractThe post-glacial marine deposits in Eastern Canada provide an ideal environment for observing body wave reflection data. Due to high stratigraphic coherence of the mud, both compressional and shear waves polarized in multiple directions can be recorded with 3-C geophones mounted on a land streamer with minimal interference from surface waves or ground roll. Based on our observations, the polarization of P-wave reflections is almost always vertical. In comparison, most of the observed shear wave reflections are in the horizontal plane when the near surface shear velocity is ?300 m/s or higher. However, as near surface velocities become less than 300 m/s, the waves can be polarized in multiple directions depending on the site conditions. The polarization can vary from vertical to horizontal as a function of arrival time. We find that the processing of S-wave data requires great accuracy in the determination of stacking velocities. To ensure quality of the S-wave sections, the velocity must be determined using semblance velocity analysis within an error range of less than 5 m/s in areas where very high-frequency shallow shear wave reflections are observed. Using a multi-component portable vibrator such as our in-house development called “Microvibe,” we demonstrate that the vertical stacking velocity can be significantly lower for the shear waves in vertical propagation mode than for those in the horizontal transverse mode, thus leading to the observation of a birefringence effect between the vertical and the horizontal planes.
Our experience with shear wave reflection profiling over the past 5 years has convinced us of the great potential of this technique. Shear waves offer another way to image the subsurface that provides extraordinary resolution in some circumstances, and can yield results where more traditional compressional wave methods fail. We are learning that with careful data collection, we can observe the true complexity of the propagation of seismic energy in the near surface. Some of these complexities such as polarization changes and velocity anisotropy provide us with new insights and new ways to measure the physical properties of the near-surface.

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