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1 NORSAR
P.O. Box 53
N-2027
Kjeller, Norway
To investigate source-scaling relations for small earthquakes
(Mw –1.8 to 1.2) we have determined source parameters
for numerous events (
1500) from the 1400-m-deep Pyhäsalmi ore mine in
Finland. In addition to a spectral integration approach, we have fitted Brune,
Boatwright, and Haskell spectral-shape models to the observed spectra and
investigated attenuation influences. Of three different constant Q
models (200, 350, and 800), a Q of 350 in combination with the Brune
spectral model satisfied the data best. We have also investigated the frequency
dependence of Q using the spectral decay method and found that
Q increases with frequency. For selected events from two distinct
clusters, we compared source parameters derived from constant Q models
with source parameters using the multiple empirical Green’s function
(MEGF) approach. By using constant Q models, the apparent
stress seems to increase with magnitude, whereas results based on the
MEGF approach indicate constant apparent stress with magnitude. In
comparison with results from other studies that cover a larger-magnitude scale,
we find apparent stresses that are about 1 to 2 orders of magnitude smaller than
most of those. A modified M0
fc–(3 + 
) scaling
relation allows for increasing apparent stress with magnitude and can hence
combine this study’s results with apparent stresses found for large
earthquakes. However, within the limited-magnitude range of our data, apparent
stresses seem constant.
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