TERRAPUB Earth, Planets and Space

Earth Planets Space, Vol. 58 (No. 8), pp. e29-e32, 2006


FDM computation of seismic wavefield for an axisymmetric earth with a moment tensor point source

Genti Toyokuni and Hiroshi Takenaka

Department of Earth and Planetary Sciences, Kyushu University, Hakozaki 6-10-1, Fukuoka 812-8581, Japan

(Received April 28, 2006; Revised June 27, 2006; Accepted July 4, 2006; Online published September 16, 2006)

Abstract: Axisymmetric modeling has been playing an important role in global seismic waveform modeling since it can correctly model geometrical spreading effects in 3-D within computational resources comparable to 2-D modeling. However, in the previous investigations on axisymmetric modeling, seismic sources were restricted to axisymmetric sources such as an explosive source. In this paper, we propose implementation of an arbitrary moment tensor point source to axisymmetric modeling using the finite-difference method (FDM). The validity and efficiency of this technique are demonstrated by comparing synthetic seismograms with analytical solutions for a homogeneous earth model, as well as with the DSM synthetics for a spherically symmetric earth. We also show a numerical example with a subducting slab structure.
Key words: Axisymmetric modeling, moment tensor, synthetic seismogram, finite-difference method (FDM).

Corresponding author E-mail: toyokuni@geo.kyushu-u.ac.jp

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