摘要:A notable feature of the 1995 Kobe (Hyogo-ken Nanbu) earthquake is that violent ground motions occurred in a narrow zone.Previous studies have shown that the origin of such motions can be explained by the 3D velocity structure in this zone.This indicates not only that the 3D velocity structure significantly affects strong ground motions, but also that we should consider its effects in order to determine accurately the rupture process of the earthquake.Therefore, we have performed a joint source inversion of strong-motion, geodetic, and teleseismic data, where 3D Green’s functions were calculated for strong-motion and geodetic data in the Osaka basin.Our source model estimates the total seismic moment to be about 2.1 × 1019 N m and the maximum slip reaches 2.9 m near the hypocenter.Although the locations of large slips are similar to those reported by Yoshida et al.(1996), there are quantitative differences between our results and their results due to the differences between the 3D and 1D Green’s functions.We have also confirmed that our source model realized a better fit to the strong motion observations, and a similar fit as Yoshida et al.(1996) to the observed static displacements. Key words Kobe earthquake rupture process 3D Green’s functions.
关键词:Kobe earthquake ;rupture process ;3D Green’s functions