Fault zone trapped seismic waves

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Fault zone trapped seismic waves

Y.-G. LI and P. C. LEARY

DEPARTMENT OF GEOLOGICAL SCIENCES UNIVERSITY OF SOUTHERN CALIFORNIA, LOS ANGELES, CALIFORNIA 90089-0740

Abstract

Two instances of fault zone trapped seismic waves have beenobserved. At an active normal fault in crystalline rock nearOroville in northern California, trapped waves were excitedwith a surface source and recorded at five near-fault boreholedepths with an oriented three-component borehole seismic sonde.At Parkfield, California, a borehole seismometer at Middle Mountainrecorded at least two instances of the fundamental and firsthigher mode seismic waves of the San Andreas fault zone. AtOroville recorded particle motions indicate the presence ofboth Love and Rayleigh normal modes. The Love-wave dispersionrelation derived for an idealized wave guide with velocity structuredetermined by body-wave travel-time inversion yields seismogramsof the fundamental mode that are consistent with the observedLove-wave amplitude and frequency. Applying a similar velocitymodel to the Parkfield observations, we obtain a good fit tothe trapped wavefield amplitude, frequency, dispersion, andmode time separation for an asymmetric San Andreas fault zonestructure—a high-velocity half-space to the southwest,a low-velocity fault zone, a transition zone containing theborehole seismometer, and an intermediate velocity half-spaceto the northeast. In the Parkfield borehole seismic data set,the locations (depth and offset normal to fault plane) of naturalseismic events which do or do not excite trapped waves are roughlyconsistent with our model of the low velocity zone. We concludethat it is feasible to obtain near-surface borehole recordsof fault zone trapped waves. Because trapped modes are excitedonly by events close to the fault zone proper—therebyfixing these events in space relative to the fault—a widerinvestigation of possible trapped mode waveforms recorded bya borehole seismic network could lead to a much refined body-wave/tomographicvelocity model of the fault and to a weighting of events asa function of offset from the fault plane. It is an open questionwhether near-surface sensors exist in a stable enough seismicenvironment to use trapped modes as an earth monitoring device.

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				L. Knopoff and Y.-T. Chen Single-Couple Component of Far-Field Radiation from Dynamical Fractures Bulletin of the Seismological Society of America, May 1, 2009; 99(2B): 1091 - 1102. [Abstract] [Full Text] [PDF]

				T. Mizuno, Y. Kuwahara, H. Ito, and K. Nishigami Spatial Variations in Fault-Zone Structure along the Nojima Fault, Central Japan, as Inferred from Borehole Observations of Fault-Zone Trapped Waves Bulletin of the Seismological Society of America, April 1, 2008; 98(2): 558 - 570. [Abstract] [Full Text] [PDF]

				A. Shakal, H. Haddadi, V. Graizer, K. Lin, and M. Huang Some Key Features of the Strong-Motion Data from the M 6.0 Parkfield, California, Earthquake of 28 September 2004 Bulletin of the Seismological Society of America, September 1, 2006; 96(4B): S90 - S118. [Abstract] [Full Text] [PDF]

				L. R. Johnson and R. M. Nadeau Asperity Model of an Earthquake: Dynamic Problem Bulletin of the Seismological Society of America, February 1, 2005; 95(1): 75 - 108. [Abstract] [Full Text] [PDF]

				A. Shakal, V. Graizer, M. Huang, R. Borcherdt, H. Haddadi, K.-w. Lin, C. Stephens, and P. Roffers Preliminary Analysis of Strong-motion Recordings from the 28 September 2004 Parkfield, California Earthquake Seismological Research Letters, January 1, 2005; 76(1): 27 - 39. [Full Text] [PDF]

				Can Seismic Waves Be Trapped inside an Inactive Fault Zone? The Case Study of Nocera Umbra, Central Italy Bulletin of the Seismological Society of America, August 1, 2002; 92(6): 2217 - 2232.

				Study of the 1999 M 7.1 Hector Mine, California, Earthquake Fault Plane by Trapped Waves Bulletin of the Seismological Society of America, May 1, 2002; 92(4): 1318 - 1332.

				Damage and Ground Shaking in the Town of Nocera Umbra during Umbria-Marche, Central Italy, Earthquakes: The Special Effect of a Fault Zone Bulletin of the Seismological Society of America, June 1, 2001; 91(3): 511 - 519.

				Y.-G. Li, W. L. Ellsworth, C. H. Thurber, P. E. Malin, and K. Aki Fault-zone guided waves from explosions in the San Andreas fault at Parkfield and Cienega Valley, California Bulletin of the Seismological Society of America, February 1, 1997; 87(1): 210 - 221. [Abstract] [PDF]

				J. K. Hammer and C. A. Langston Modeling the effect of San Andreas fault structure on receiver functions using elastic 3D finite difference Bulletin of the Seismological Society of America, October 1, 1996; 86(5): 1608 - 1622. [Abstract] [PDF]

				Y.-G. Li and J. E. Vidale Low-velocity fault-zone guided waves: Numerical investigations of trapping efficiency Bulletin of the Seismological Society of America, April 1, 1996; 86(2): 371 - 378. [Abstract] [PDF]

				B.-S. Huang, T.-l. Teng, and Y. T. Yeh Numerical modeling of fault-zone trapped waves: Acoustic case Bulletin of the Seismological Society of America, December 1, 1995; 85(6): 1711 - 1717. [Abstract] [PDF]

				D. Jongmans and P. E. Malin Microearthquake S-wave observations from 0 to 1 km in the Varian well at Parkfield, California Bulletin of the Seismological Society of America, December 1, 1995; 85(6): 1805 - 1820. [Abstract] [PDF]

				Y.-G. Li, Y.-G. Li, K. Aki, J. E. Vidale, W. H. K. Lee, and C. J. Marone Fine Structure of the Landers Fault Zone: Segmentation and the Rupture Process Science, July 15, 1994; 265(5170): 367 - 370. [Abstract] [PDF]

				S. E. Hough, Y. Ben-Zion, and P. Leary Fault-zone waves observed at the southern Joshua Tree earthquake rupture zone Bulletin of the Seismological Society of America, June 1, 1994; 84(3): 761 - 767. [Abstract] [PDF]

				R. Nadeau, M. Antolik, P. A. Johnson, W. Foxall, and T. V. McEvilly Seismological studies at Parkfield III: Microearthquake clusters in the study of fault-zone dynamics Bulletin of the Seismological Society of America, April 1, 1994; 84(2): 247 - 263. [Abstract] [PDF]