We used GSN broadband waveforms downloaded from the NEIC waveform server. We analyzed 55 teleseismic broadband P waveforms and 12 broadband SH waveforms selected based on data quality and azimuthal distribution. Waveforms are first converted to displacement by removing the instrument response and are then used to constrain the slip history using a finite fault inverse algorithm (Ji et al., 2002). We begin modeling using a hypocenter matching or adjusted slightly from the initial NEIC solution (Lon. = -153.5 deg.; Lat. = 59.7 deg., Dep. = 127.8 km), and a fault plane defined using either the rapid W-Phase moment tensor (for near-real time solutions), or the gCMT moment tensor (for historic solutions).