
Earthquake sequences on a frictional fault model with non‐uniform strengths and relaxation times
Author(s) -
Mikumo Takeshi,
Miyatake Takashi
Publication year - 1979
Publication title -
geophysical journal of the royal astronomical society
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.302
H-Index - 168
eISSN - 1365-246X
pISSN - 0016-8009
DOI - 10.1111/j.1365-246x.1979.tb02569.x
Subject(s) - aftershock , seismology , foreshock , geology , logarithm , shock (circulatory) , seismic moment , fault (geology) , seismic gap , geodesy , mechanics , physics , mathematics , mathematical analysis , medicine
Summary. The space and time characteristics of earthquake sequences, including a main shock, aftershocks and the recurrence of major shocks in a long time range, are investigated on a frictional fault model with non‐uniform strengths and relaxation times, which is subjected to a time‐dependent shear stress. Aftershocks with low stress drop take place successively in spaced regions so as to fill the gaps which have not yet been ruptured since the main shock, while those with high stress drop occur in and around the regions left unruptured during the main faulting. The frequency decay of aftershocks with time follows a hyperbolic law with the rates p consistent with observations. There are good linear relations in logarithmic scales for source area versus frequency and seismic moment versus frequency of the generated aftershocks. The b ‐value obtained in the present experiments appears slightly larger than that for observations. It was found that more heterogeneous distribution of the fault strength give smaller p and larger b ‐values. The recurrence of major shocks, particularly of very large shocks with high stress drop, is often preceded by a completely silent period of activity or very low activity with a small number of foreshocks. The major shocks take place successively in adjacent unruptured regions and sometimes show slow‐speed migrations. These results provide explanations to various observations of earthquake sequences.