Abstract
The last few years there has been a growing number of body-wave
observations in noise records. In 1973, Vinnik conjectured that P-waves
would even be the dominant wavemode, at epicentral distances of about 40
degrees and onwards from an oceanic source. At arrays far from offshore
storms, surface waves induced by nearby storms would not mask the
body-wave signal and hence primarily P-waves would be recorded. We
measured at such an array in Egypt and indeed found a large proportion
of P-waves. At the same time, a new methodology is under development to
characterize the lithosphere below an array of receivers, without active
sources or local earthquakes. Instead, transmitted waves are used which
are caused by distant sources. These sources may either be transient or
more stationary. With this new methodology, called seismic
interferometry, reflection responses are extracted from the coda of
transmissions. Combining the two developments, it is clear that there is
a large potential for obtaining reflection responses from low-frequency
noise. A potential practical advantage of using noise instead of
earthquake responses would be that an array only needs to be deployed
for a few days or weeks instead of months, to gather enough
illumination. We used a few days of continuous noise, recorded with an
array in the Abu Gharadig basin, Egypt. We split up the record in three
distinct frequency bands and in many small time windows. Using array
techniques and taking advantage of all three-component recordings, we
could unravel the dominant wavemodes arriving in each time window and in
each frequency band. The recorded wavemodes, and hence the noise
sources, varied significantly per frequency band, and - to a lesser
extent - per time window. Primarily P-waves were detected on the
vertical component for two of the three frequency bands. For these
frequency bands, we only selected the time windows with a favorable
illumination. By subsequently, applying seismic interferometry, we
retrieved P-wave reflection responses and delineated reflectors in the
crust, the Moho and possibly the Lehmann discontinuity.
Original language | English |
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Pages (from-to) | 512-525 |
Journal | Comptes Rendus Géoscience |
Volume | 343 |
Publication status | Published - 1 Sept 2011 |