| Literature DB >> 15905394 |
Jeffrey Park1, Teh-Ru Alex Song, Jeroen Tromp, Emile Okal, Seth Stein, Genevieve Roult, Eric Clevede, Gabi Laske, Hiroo Kanamori, Peter Davis, Jon Berger, Carla Braitenberg, Michel Van Camp, Xiang'e Lei, Heping Sun, Houze Xu, Severine Rosat.
Abstract
At periods greater than 1000 seconds, Earth's seismic free oscillations have anomalously large amplitude when referenced to the Harvard Centroid Moment Tensor fault mechanism, which is estimated from 300- to 500-second surface waves. By using more realistic rupture models on a steeper fault derived from seismic body and surface waves, we approximated free oscillation amplitudes with a seismic moment (6.5 x 10(22) Newton.meters) that corresponds to a moment magnitude of 9.15. With a rupture duration of 600 seconds, the fault-rupture models represent seismic observations adequately but underpredict geodetic displacements that argue for slow fault motion beneath the Nicobar and Andaman islands.Entities:
Year: 2005 PMID: 15905394 DOI: 10.1126/science.1112305
Source DB: PubMed Journal: Science ISSN: 0036-8075 Impact factor: 47.728