Strong ground motion simulation of the 2016 Kumamoto earthquake of April 16 using multiple point sources
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- 作者:Yosuke Nagasaka ; Atsushi Nozu
- 关键词:2016 Kumamoto earthquake ; Strong ground motion simulation ; Pseudo point ; source model ; Rupture directivity
- 刊名:Earth, Planets and Space
- 出版年:2017
- 出版时间:December 2017
- 年:2017
- 卷:69
- 期:1
- 全文大小:7934KB
- 刊物类别:Earth Sciences, general; Geology; Geophysics/Geodesy;
- 刊物主题:Earth Sciences, general; Geology; Geophysics/Geodesy;
- 出版者:Springer Berlin Heidelberg
- ISSN:1880-5981
- 卷排序:69
文摘
The pseudo point-source model approximates the rupture process on faults with multiple point sources for simulating strong ground motions. A simulation with this point-source model is conducted by combining a simple source spectrum following the omega-square model with a path spectrum, an empirical site amplification factor, and phase characteristics. Realistic waveforms can be synthesized using the empirical site amplification factor and phase models even though the source model is simple. The Kumamoto earthquake occurred on April 16, 2016, with MJMA 7.3. Many strong motions were recorded at stations around the source region. Some records were considered to be affected by the rupture directivity effect. This earthquake was suitable for investigating the applicability of the pseudo point-source model, the current version of which does not consider the rupture directivity effect. Three subevents (point sources) were located on the fault plane, and the parameters of the simulation were determined. The simulated results were compared with the observed records at K-NET and KiK-net stations. It was found that the synthetic Fourier spectra and velocity waveforms generally explained the characteristics of the observed records, except for underestimation in the low frequency range. Troughs in the observed Fourier spectra were also well reproduced by placing multiple subevents near the hypocenter. The underestimation is presumably due to the following two reasons. The first is that the pseudo point-source model targets subevents that generate strong ground motions and does not consider the shallow large slip. The second reason is that the current version of the pseudo point-source model does not consider the rupture directivity effect. Consequently, strong pulses were not reproduced enough at stations northeast of Subevent 3 such as KMM004, where the effect of rupture directivity was significant, while the amplitude was well reproduced at most of the other stations. This result indicates the necessity for improving the pseudo point-source model, by introducing azimuth-dependent corner frequency for example, so that it can incorporate the effect of rupture directivity.Graphical abstract.