ダウンロード数: 273

このアイテムのファイル:
ファイル 記述 サイズフォーマット 
j.1365-246X.1978.tb04267.x.pdf1.37 MBAdobe PDF見る/開く
タイトル: Dynamical rupture process on a three-dimensional fault with non-uniform frictions, and near-field seismic waves
著者: Mikumo, Takeshi
Miyatake, Takashi
発行日: Aug-1978
出版者: Oxford University Press
誌名: Geophysical Journal of the Royal Astronomical Society
巻: 54
号: 2
開始ページ: 417
終了ページ: 438
抄録: Dynamical rupture process on the fault is investigated in a quasi-three-dimensional faulting model with non-uniform distributions of static frictions or the fracture strength under a finite shearing pre-stress. The displacement and stress time functions on the fault are obtained by solving numerically the equations of motion with a finite stress—fracture criterion, using the finite difference method. If static frictions are homogeneous or weakly non-uniform, the rupture propagates nearly elliptically with a velocity close to that of P waves along the direction of pre-stress and with a nearly S wave velocity in the direction perpendicular to it. The rise time of the source function and the final displacements are larger around the centre of the fault. In the case when the static frictions are heavily non-uniform and depend on the location, the rupture propagation becomes quite irregular with appreciably decreased velocities, indicating remarkable stick-slip phenomena. In some cases, there remain unruptured regions where fault slip does not take place, and high stresses remain concentrated up to the final stage. These regions could be the source of aftershocks at a next stage. The stick—slip faulting and irregular rupture propagation radiate high-frequency seismic waves, and the near-field spectral amplitudes tend to show an inversely linear frequency dependence over high frequencies for heavily non-uniform frictional faults.
著作権等: © The Royal Astronomical Society
URI: http://hdl.handle.net/2433/193390
DOI(出版社版): 10.1111/j.1365-246X.1978.tb04267.x
出現コレクション:三雲 健

アイテムの詳細レコードを表示する

Export to RefWorks


出力フォーマット 


このリポジトリに保管されているアイテムはすべて著作権により保護されています。