Karim G. Sabra scite author profile

Since it has already been demonstrated that point‐to‐point seismic propagation Green Functions can be extracted from seismic noise, it should be possible to image Earth structure using the ambient noise field. Seismic noise data from 148 broadband seismic stations in Southern California were used to extract the surface wave arrival‐times between all station pairs in the network. The seismic data were then used in a simple, but densely sampled tomographic procedure to estimate the surface wave velocity structure within the frequency range of 0.1–0.2 Hz for a region in Southern California. The result compares favorably with previous estimates obtained using more conventional and elaborate inversion procedures. This demonstrates that coherent noise field between station pairs can be used for seismic imaging purposes.

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Extracting time‐domain Green's function estimates from ambient seismic noise

Sabra

2005

Geophysical Research Letters

483

357

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It has been demonstrated experimentally and theoretically that an estimate of the Green's function between two seismic stations can be obtained from the time‐derivative of the long‐time average cross correlation of ambient noise between these two stations. This TDGF estimate from just the noise field includes all tensor components of the Green's function and these Green's function estimates can be used to infer Earth structure. We have computed cross correlations using 1 to 30 continuous days of ambient noise recorded by over 150 broadband seismic stations located in Southern California. The data processing yielded thousands of cross‐correlation pairs, for receiver separations from 4–500 km, which clearly exhibit coherent broadband propagating dispersive wavetrains across frequency band 0.1–2 Hz.

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Ambient noise cross correlation in free space: Theoretical approach

Roux

Sabra²,

Kuperman³

et al. 2005

377

301

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Karim G. Sabra

Surface wave tomography from microseisms in Southern California

Extracting time‐domain Green's function estimates from ambient seismic noise

Ambient noise cross correlation in free space: Theoretical approach

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