Akinori Hashima
University of Tokyo
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Publication
Featured researches published by Akinori Hashima.
Pure and Applied Geophysics | 2014
Akinori Hashima; Yukitoshi Fukahata; Chihiro Hashimoto; Mitsuhiro Matsu’ura
We derived explicit expressions in the time domain for 3-D quasi-static strain and stress fields, due to a point moment tensor source in an elastic surface layer overlying viscoelastic half-space under gravity. The expressions of strain in the elastic surface layer were directly obtained from the expressions of displacement in our previous paper. The conversion of strain into stress is easy, because the stress–strain relation of elastic material is linear. In the viscoelastic substratum, the expressions of strain were obtained by applying the correspondence principle of linear viscoelasticity to the associated elastic solution. The strain–stress conversion is not straightforward, as the stress–strain relation of viscoelastic material is usually given in a differential form. To convert strain into stress, we used an integral form of the stress–strain relation instead of the usual differential form. The expressions give the responses of elastic half-space at
Earth, Planets and Space | 2017
Akinori Hashima; Toshinori Sato
Earth and Planetary Science Letters | 2017
Andrew M. Freed; Akinori Hashima; Thorsten W. Becker; David A. Okaya; Hiroshi Sato; Yuki Hatanaka
t = 0
Geophysical Journal International | 2008
Akinori Hashima; Youichiro Takada; Yukitoshi Fukahata; Mitsuhiro Matsu'ura
Tectonophysics | 2008
Akinori Hashima; Yukitoshi Fukahata; Mitsuhiro Matsu'ura
t=0, and the responses of an elastic plate floating on non-viscous liquid at
Tectonophysics | 2016
Yannis Panayotopoulos; Naoshi Hirata; Akinori Hashima; Takaya Iwasaki; Shin’ichi Sakai; Hiroshi Sato
Tectonophysics | 2016
Akinori Hashima; Toshinori Sato; Hiroshi Sato; Kazumi Asao; Hiroshi Furuya; Shuji Yamamoto; Koji Kameo; Takahiro Miyauchi; Tanio Ito; Noriko Tsumura; Heitaro Kaneda
t = \infty
Earth, Planets and Space | 2016
Akinori Hashima; Thorsten W. Becker; Andrew M. Freed; Hiroshi Sato; David A. Okaya
Tectonics | 2007
Youichiro Takada; Yukitoshi Fukahata; Akinori Hashima; Toshiko Terakawa; Kenji Fukui; Takatoshi Yanagisawa; Yasutaka Ikeda; Gaku Kimura; Mitsuhiro Matsu'ura
t=∞. The moment tensor is rationally decomposed into the three independent force systems, corresponding to isotropic expansion, shear faulting and crack opening, and so the expressions include the strain and stress fields for these force systems as special cases. As the first numerical example, we computed the temporal changes in strain and stress fields after the sudden opening of an infinitely long vertical crack cutting the elastic surface layer. Here, we observe that the stress changes caused by the sudden crack opening gradually decay with time and vanish at
Tectonics | 2007
Youichiro Takada; Yukitoshi Fukahata; Akinori Hashima; Toshiko Terakawa; Kenji Fukui; Takatoshi Yanagisawa; Yasutaka Ikeda; Gaku Kimura; Mitsuhiro Matsu'ura
