Publication Date:
2017-01-25
Description:
Measuring seismic wave attenuation is critical to the prediction of accurate ground motion and for earthquake hazard analysis. In the present article, we carefully investigate to what extent noise correlations can be used to unambiguously measure the attenuation of the Earth crust. More precisely, we explore the different ways to interpret the amplitude decay of noise correlations computed along two lines of broad-band receivers located nearby the French Pyrenees. To this end, we first study how the distribution of seismic noise sources affects the amplitude of noise correlations by computing of the noise-source kernels in PREM. Numerical experiments in a 2-D homogeneous medium are then used to interpret the amplitude decay of the noise correlations measured along two lines of broad-band receivers located in southwest France. We find that in the 5–10 s period band, where Rayleigh waves are sensitive to the upper-crust, the noise correlations have stronger amplitude decay along the northern Pyrenees than along the Aquitaine Basin. However this difference cannot be interpreted unambiguously as a contrast of attenuation as it is also possible to find a distribution of noise sources that explains our observations. This shows that even when considering a line of receivers, it is not possible to use noise correlations to measure the attenuation of the medium without making strong assumptions about or taking into account the distribution of the noise sources.
Print ISSN:
0956-540X
Electronic ISSN:
1365-246X
Topics:
Geosciences
