Body-Wave and Earthquake Source Studies
<p>The present work concerns a study on the radiation and propagation of seismic body waves. Based on a reformulated seismic ray theory and supplemented by the results of several associated boundary value problems, a method of body wave equalization is described which enables the extrapola...
| Summary: | <p>The present work concerns a study on the radiation and propagation
of seismic body waves. Based on a reformulated seismic ray
theory and supplemented by the results of several associated
boundary value problems, a method of body wave equalization is
described which enables the extrapolation of body-wave fields from
one point to another.</p>
<p>Applications of the above method to studies of earthquake
source mechanism and earth's structure, specifically its anelasticity,
are presented. The findings for two deep-focus earthquakes can be
summarized by: (1) a displacement dislocation source, or an
equivalent double couple, can generally explain the observed radiation
fields, (2) the source time functions can be explained by a
build-up step (1 - e <sup>-t/τ</sup>)H(t), and τ appears to be longer for larger
earthquakes, (3) the total energy calculated from equalized spectrums
is: for the Banda Sea earthquake (M = 6-1/4 - 6-3/4), E = 1.01x10<sup>22</sup>
ergs; and for the Brazil earthquake (M = 6-3/4 - 7), E = 2.56x10<sup>23</sup>
ergs.</p>
<p>From the spectral ratios pP/P and P/P, it is found (1) that
the upper 430 km of the mantle has an average Q<sub>ɑ</sub> = 105, (2) that Q<sub>ɑ</sub>
increases very slowly until depth of about 1000 km, and (3) that
Q<sub>ɑ</sub> rises rapidly beyond a depth of 1000 km, remains a high value
in the lower mantle and drops sharply toward the core-mantle
boundary.</p> |
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