Preliminary Result
06/07/17 (Mw 7.9) , Southern Java Earthquake

A. Ozgun Konca, Caltech

DATA Process and Inversion

We used the GSN broadband data downloaded from the IRIS DMC. We analyzed 10 teleseismic P waveforms and 3 teleseismic SH waveforms selected based upon data quality and azimuthal distribution. Waveforms are first converted to displacement by removing the instrument response and then used to constrain the slip history based on a finite fault inverse algorithm (Ji et al, 2002). We use the epicenter of the USGS (Lon.=107.345° Lat.=-9.295°). We used the Harvard CMT solution to determine strike (289°) and dip (10°). This strike and dip is preferred based on the shape of the subduction zone. The length of fault was estimated from aftershock locations.



Cross-section of slip distribution

Figure: The big black arrow shows the fault's strike. The colors show the slip amplitude and white arrows indicate the direction of motion of the hanging wall relative to the footwall. Contours show the rupture initiation time and the red star indicates the hypocenter location.

Comparison of data and synthetic seismograms

Figure: The Data are shown in black and the synthetic seismograms are plotted in red. Both data and synthetic seismograms are aligned on the P arrivals. The number at the end of each trace is the peak amplitude of the observation in micro-meter. The number above the beginning of each trace is the source azimuth and below it is the epicentral distance.

Figure: Surface projection of the slip distribution. The surface break obtained from geodesy is shown with black line. The measured surface offsets (black) and predictions of these offsets from seismic inversiona(red) are also shown.


The aftershock locations indicate a fault length of about 200 km. Just by observing the data length, this implies a very low rupture velocity. Here we have used a rupture velocity of 1-1.3 km/s. Since most of the slip seems to be close to the rupture termination, the moment estimated depends on the time window chosen for inversion.




Ji, C., D.J. Wald, and D.V. Helmberger, Source description of the 1999 Hector Mine, California earthquake; Part I: Wavelet domain inversion theory and resolution analysis, Bull. Seism. Soc. Am., Vol 92, No. 4. pp. 1192-1207, 2002.

Bassin, C., Laske, G. and Masters, G., The Current Limits of Resolution for Surface Wave Tomography in North America, EOS Trans AGU, 81, F897, 2000.

GCMT project:

USGS National Earthquake Information Center:

Global Seismographic Network (GSN) is a cooperative scientific facility operated jointly by the Incorporated Research Institutions for Seismology (IRIS), the United States Geological Survey (USGS), and the National Science Foundation (NSF).

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