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High Resolution Finite Fault Inversions for M>4.8 Earthquakes in the 2012 Brawley Swarm Shengji Wei Acknowledgement Don Helmberger (Caltech) Rob Graves and Ken Hudnut, (USGS) Susan Owen, Eric Fielding, Zhen Liu, Jay Parker and Andrea Donnellan (JPL) Key Word: Path Calibration
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Outline Overview of the 2012 Brawley swarm Path calibration from the Mw3.9 earthquake Waveform inversion of the M>5 events up to 3Hz Complementary slip distribution (triggering?) Two shallow (depth ~ 2.0km) normal earthquakes: seismological, field observation and geodetic evidence Joint inversion for the Mw4.9 normal earthquake Aseismic and seismic slip on the normal fault Conclusion
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Overview Wei, et. al., 2013, GRL Seismicity from Hauksson et. al. 2013, SRL
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Waveform Complexity
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Ji et. al., 2002a, BSSA Finite Fault Inversion Method A simulated annealing algorithm is used to simultaneously invert for the: slip amplitude, slip direction, rise time, rupture velocity Chi-Chi Earthquake We need a layered crustal model to calculate synthetic seismogram: We need 1D velocity model(s) if not 3D.
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2D horizontal cuts D=0.5km D=2.5kmD=4.5km Basin Thickness 3D velocity model: CVM-H-11.9.0 Earthquake depth: ~5km
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Path Calibration using the Mw3.9 Event Vs = (Vp – 1.36)/1.16 for Vp < 4.0km/s Brocher, 2005, BSSA frequency band: 0.05 ~ 3 Hz
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Inversion results
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Resolution of the data set
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CVM4.0 CVMH_11.9.0 PCM Model used to generate synthetic data: PCM Sensitivity for velocity structure
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Normal Events
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Point source double-couple moment tenor Waveform inversions at different frequency bands show similar results
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Grid Search result using the M4.6 event Only a small window fits all components Ver. Rad. Tan. Vp_top Station: 11369 1Hz Velocity
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UAVSAR data (RPI 265) and field observation Poster: 058 (by Ken Hudnut) Static only inversion
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Strong motion waveform fits and prediction (10s~4Hz) Data used
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Vr=1.25km/s Vr=1.75km/s Vr=2.25km/s Rupture Velocity Enough redundancy is set for the rise time
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Resolution tests
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Vertical Deformation Measured by Leveling Before the swarmWith the swarm
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Aseismic and seismic slip on the normal fault
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Conclusion Path calibrations are needed for high resolution finite fault inversions. M5.3 and M5.4 events have complementary slip distribution. The shallow M4.9 normal earthquake has a centroid depth of ~2.0km and average rupture speed is 1.75km/s. The aseismic and seismic slip for the M4.9 normal earthquake is complementary to each other.
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Thanks for your attention!
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Normal Faulting
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Hauksson et. al., 2013 Strike-Slip Faulting
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1.00 0.469 1.609 1.50 0.646 2.008 2.00 0.800 2.314 2.50 0.935 2.562 3.01 1.059 2.779 3.51 1.176 2.981 4.01 1.285 3.169 4.51 1.387 3.346 5.01 1.484 3.512 7.54 1.945 4.305 9.74 2.334 4.974 11.9 2.712 5.625 Time table (PCM) Dep(km) Tp(s) Ts(s) pP Depth Phases
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Direction Cosine U-D N-S E-W Looking Angle
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LOS prediction from the slip models of M5.4 and M5.3
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4 Days Seismicity
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North Brawley Operations North Brawley:49.9 MW net - 2009 – Currently operating at approximately 33 net MW Annual Volume of Fluid Produced:57,000 million gallons Annual Volume of Fluid Injected:53,000 million gallons 19 injection wells – Average well depth 3900 feet – Injection all < 3500 feet – Deepest injection at ~6000 feet Salinity:Average 40,000 ppm (TDS) Binary Fluid Injection Temperature:150 F – Temperature in the Injection Zone :150 to 410 F Injection Rate: Average is 525 gpm Injection Pressure:Average is 330 psig Not allowed to exceed fracture gradient at shallowest perforations 31
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North Brawley Seismic Array and Wells Production wells:RED Injection wells:BLUE Seismic Stations: YELLOW 32
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Synthetics test
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InSAR observations
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FK FD validation
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Is there large amount of aseismic slip? static offset is pure prediction
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Velocity Model
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11369 waveform prediction for the shallow normal earthquake (M4.6)
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UAVSAR 265
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