Ambient noise cross-correlation observations of fundamental and higher-mode Rayleigh wave propagation governed by basement resonance

Measurement of basement seismic resonance frequencies can elucidate shallow velocity structure, an important factor in earthquake hazard estimation. Ambient noise cross correlation, which is well-suited to studying shallow earth structure, is commonly used to analyze fundamental-mode Rayleigh waves and, increasingly, Love waves. Here we show via multicomponent ambient noise cross correlation that the basement resonance frequency in the Canterbury region of New Zealand can be straightforwardly determined based on the horizontal to vertical amplitude ratio (H/V ratio) of the first higher-mode Rayleigh waves. At periods of 1-3 s, the first higher-mode is evident on the radial-radial cross-correlation functions but almost absent in the vertical-vertical cross-correlation functions, implying longitudinal motion and a high H/V ratio. A one-dimensional regional velocity model incorporating a ~ 1.5 km-thick sedimentary layer fits both the observed H/V ratio and Rayleigh wave group velocity. Similar analysis may enable resonance characteristics of other sedimentary basins to be determined. © 2013. American Geophysical Union. All Rights Reserved.

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On seismic ambient noise cross-correlation and surface-wave attenuation

Geophysical Journal International ◽

10.1093/gji/ggz379 ◽

2019 ◽

Vol 219 (3) ◽

pp. 1568-1589

Author(s):

Lapo Boschi ◽

Fabrizio Magrini ◽

Fabio Cammarano ◽

Mark van der Meijde

Keyword(s):

Rayleigh Wave ◽

Ambient Noise ◽

Cross Correlation ◽

Wave Attenuation ◽

Mathematical Expression ◽

Seismic Ambient Noise ◽

Multiplicative Factor ◽

Cross Correlations ◽

Noise Cross Correlation ◽

Preliminary Application

SUMMARY We derive a theoretical relationship between the cross correlation of ambient Rayleigh waves (seismic ambient noise) and the attenuation parameter α associated with Rayleigh-wave propagation. In particular, we derive a mathematical expression for the multiplicative factor relating normalized cross correlation to the Rayleigh-wave Green’s function. Based on this expression, we formulate an inverse problem to determine α from cross correlations of recorded ambient signal. We conduct a preliminary application of our algorithm to a relatively small instrument array, conveniently deployed on an island. In our setup, the mentioned multiplicative factor has values of about 2.5–3, which, if neglected, could result in a significant underestimate of α. We find that our inferred values of α are reasonable, in comparison with independently obtained estimates found in the literature. Allowing α to vary with respect to frequency results in a reduction of misfit between observed and predicted cross correlations.

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Short-Period Rayleigh-Wave Group Velocity Tomography through Ambient Noise Cross-Correlation in Xinjiang, Northwest China

Bulletin of the Seismological Society of America ◽

10.1785/0120090225 ◽

2010 ◽

Vol 100 (3) ◽

pp. 1350-1355 ◽

Cited By ~ 10

Author(s):

X. Zheng ◽

W. Jiao ◽

C. Zhang ◽

L. Wang

Keyword(s):

Rayleigh Wave ◽

Group Velocity ◽

Ambient Noise ◽

Cross Correlation ◽

Northwest China ◽

Wave Group ◽

Short Period ◽

Noise Cross Correlation ◽

Velocity Tomography

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