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A new method for determining small earthquake source parameters using short-period P waves

Tan, Ying and Helmberger, Don (2007) A new method for determining small earthquake source parameters using short-period P waves. Bulletin of the Seismological Society of America, 97 (4). pp. 1176-1195. ISSN 0037-1106. https://resolver.caltech.edu/CaltechAUTHORS:TANbssa07

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Abstract

We developed a new technique of inverting short-period (0.5–2 Hz) P waveforms for determining small earthquake (M <3.5) focal mechanisms and moments, where magnitude ~4 events with known source mechanisms are used to calibrate the "unmodeled" structural effect. The calibration is based on a waveform cluster analysis, where we show that clustered events of different sizes, for example, M ~4 versus M ~2, display similar signals in the short-period (SP, 0.5–2 Hz) frequency band, implying propagational stability. Since both M ~4 and M ~2 events have corner frequencies higher than 2 Hz, they can be treated as point sources, and the "unmodeled" structural effect on the SP P waves can be derived from the magnitude 4 events with known source mechanisms. Similarly, well-determined magnitude 2’s can provide calibration for studying even smaller events at higher frequencies, for example, 2–8 Hz. In particular, we find that the "unmodeled" structural effect on SP P waves is mainly an amplitude discrepancy between data and 1D synthetics. The simple function of "amplitude amplification factor" (AAF) defined as the amplitude ratio between data and synthetics provides useful calibration, in that the AAFs derived from different clustered events appear consistent, hence stable and mechanism independent. We take a grid-search approach to determine source mechanisms by minimizing the misfit error between corrected data and synthetics of SP P waves. The validation tests with calibration events demonstrate the importance and usefulness of the AAF corrections in recovering reliable results. We introduce the method with the 2003 Big Bear sequence. However, it applies equally well to other source regions in southern California, because we have shown that the mechanism independence and stability of the AAFs for source regions of 10 km by 10 km are typical. By definition, the AAFs contain the effects from the station site, the path, and crustal scattering. Although isolating their contributions proves difficult, the mechanism independence and stability of the AAFs suggest that they are mainly controlled by the near-receiver structure. Moreover, the ratios between the AAFs for the vertical and radial components from various events at different locations appear consistent, suggesting that these AAF(v)/AAF(r) ratios might be simple functions of site conditions. In this study, we obtained the focal mechanisms and moments for 92 Big Bear events with M_L down to 2.0. The focal planes correlate well with the seismicity patterns, while containing abundant finer-scale fault complexity. We find a linear relationship between log(M_0) and M_L, that is, log(M_0) = 1.12M_L + 17.29, which explains all the data points spanning three orders of magnitude (2.0 < M_L < 5.5).


Item Type:Article
Related URLs:
URLURL TypeDescription
http://dx.doi.org/10.1785/0120060251DOIUNSPECIFIED
http://bssa.geoscienceworld.org/cgi/content/abstract/97/4/1176PublisherUNSPECIFIED
Additional Information:© 2007 Seismological Society of America. We would like to thank Hiroo Kanamori, Egill Hauksson, Lupei Zhu, and Alex Song for useful discussions. The comments from Po Chen, Jeanne Hardebeck, and an anonymous reviewer helped to improve the manuscript. This work is supported by SCEC (USC.SCEC02), USGS (06HQGR0140), and DoE (DE-FC52-06NA27319). Caltech Seismological Laboratory contribution no. 9167.
Funders:
Funding AgencyGrant Number
Southern California Earthquake CenterUSC.SCEC02
U.S. Geological Survey06HQGR0140
Department of EnergyDE-FC52-06NA27319
Subject Keywords:moment tensor inversion; focal mechanism determination; band regional seismograms; Southern California; amplitude ratios; aftershock sequence; scaling relations; local magnitude; point-source; fault
Issue or Number:4
Record Number:CaltechAUTHORS:TANbssa07
Persistent URL:https://resolver.caltech.edu/CaltechAUTHORS:TANbssa07
Usage Policy:No commercial reproduction, distribution, display or performance rights in this work are provided.
ID Code:13576
Collection:CaltechAUTHORS
Deposited By: Tony Diaz
Deposited On:11 May 2009 17:18
Last Modified:03 Oct 2019 00:40

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