TY - JOUR
T1 - Inversion of the high-frequency source radiation of M6.8 Avachinsky Gulf, Kamchatka, earthquake using empirical and theoretical envelope Green functions
AU - Petukhin, Anatoly G.
AU - Nakahara, Hisashi
AU - Gusev, Alexander A.
N1 - Funding Information:
Acknowledgments. The study was initiated when A. G. was kindly invited to visit Tohoku University, Sendai, under the JSPS fellowship (Grant #S97217). Kamchatka Experimental and Methodical Seismological Department (KEMSD GS RAS) kindly provided strong-motion data. The authors are grateful to Kojiro Irikura for encouragement for this work. Special thanks to Haruo Sato and Victor Pavlov provided constructive review comments on the manuscript. During this study, A. P. was partially supported by the Postdoctoral Fellowship of the Japan Society for the Promotion of Science (Grant #P98403).
PY - 2004
Y1 - 2004
N2 - We study the generation of high-frequency S-wave energy from its source of the 1992 Avachinsky Gulf, Kamchatka, earthquake (MW = 6.8) by means of the envelope inversion method of Nakahara et al. (1998). Two versions of this technique were employed, the original version and the modified version. In the modified version, to construct the "envelope Green function" we use empirical envelope shapes, constructed by averaging data of small earthquakes from the same area, calibrated to the total energy of the theoretical envelopes. The envelope inversion procedure was applied to six mainshock records, producing estimates of spatial distribution of energy radiation in frequency bands: 1-2, 2-4, 4-8 and 8-16 Hz. In both inversions, the distribution of energy radiation shows a similar pattern: 75-90 percent of the energy was radiated soon after nucleation. Afterwards, the rupture propagated mostly in a westward direction. Similarity of both results demonstrates the robustness of the envelope inversion method. However the version of the inversion procedure that uses empirical envelopes yields more plausible characteristics of the rupture process.
AB - We study the generation of high-frequency S-wave energy from its source of the 1992 Avachinsky Gulf, Kamchatka, earthquake (MW = 6.8) by means of the envelope inversion method of Nakahara et al. (1998). Two versions of this technique were employed, the original version and the modified version. In the modified version, to construct the "envelope Green function" we use empirical envelope shapes, constructed by averaging data of small earthquakes from the same area, calibrated to the total energy of the theoretical envelopes. The envelope inversion procedure was applied to six mainshock records, producing estimates of spatial distribution of energy radiation in frequency bands: 1-2, 2-4, 4-8 and 8-16 Hz. In both inversions, the distribution of energy radiation shows a similar pattern: 75-90 percent of the energy was radiated soon after nucleation. Afterwards, the rupture propagated mostly in a westward direction. Similarity of both results demonstrates the robustness of the envelope inversion method. However the version of the inversion procedure that uses empirical envelopes yields more plausible characteristics of the rupture process.
KW - Envelope source inversion
KW - High-frequency scattering
KW - High-frequency source radiation
KW - Kamchatka
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U2 - 10.1186/BF03352539
DO - 10.1186/BF03352539
M3 - Article
AN - SCOPUS:20644472458
SN - 1343-8832
VL - 56
SP - 921
EP - 925
JO - Earth, Planets and Space
JF - Earth, Planets and Space
IS - 9
ER -