It has recently been proposed by several authors that stress distribution around active faults may become critical spontaneously. Other authors believe that heterogeneity is a permanent feature of fault planes. We test these ideas on a simple but realistic fault model in the presence of non-linear rate-dependent friction. We find that if friction increases with decreasing slip rate, slip becomes unstable at low slip rates generating supersonic healing phases that lock slip prematurely. Locking of slip in turn produces stress heterogeneity. For a fault model containing a single localized asperity, Das and Okubo found that rupture starts at the asperity and propagates until it either encounters a strong barrier or the stress intensity reduces...
We propose that lateral variations in fault friction control the heterogeneity of slip observed in l...
Abstract Observations demonstrate that faults are fractal surfaces with deviations from planarity at...
A debate has raged over whether fixed material and geometrical heterogeneities, or alternatively dyn...
It has recently been proposed by several authors that stress distribution around active faults may b...
We study the effects of friction heterogeneity on the dynamics of a seismogenic fault. To this aim, ...
It is of great interest to isolate the fundamental physical mechanism controlling observed statistic...
Observations from laboratory, field and numerical work spanning a wide range of space and time scale...
We investigate the effects of non-uniform distribution of constitutive parameters on the dynamic pro...
We examine numerical models that employ the rate-and-state frictional (RSF) framework to investigate...
[1] We study how enforcing self-consistency in the statistical properties of the preshear and postsh...
The dynamics of a fault with heterogeneous friction is studied by employing a discrete fault model w...
International audienceNumerical simulation of the rupture process is usually performed under an assu...
An instability of frictional sliding driven by tectonic stress is assumed to be the source of earthq...
Abstract Precursory seismicity is often observed before a large earthquake. Small foreshocks occur w...
We propose that lateral variations in fault friction control the heterogeneity of slip observed in l...
Abstract Observations demonstrate that faults are fractal surfaces with deviations from planarity at...
A debate has raged over whether fixed material and geometrical heterogeneities, or alternatively dyn...
It has recently been proposed by several authors that stress distribution around active faults may b...
We study the effects of friction heterogeneity on the dynamics of a seismogenic fault. To this aim, ...
It is of great interest to isolate the fundamental physical mechanism controlling observed statistic...
Observations from laboratory, field and numerical work spanning a wide range of space and time scale...
We investigate the effects of non-uniform distribution of constitutive parameters on the dynamic pro...
We examine numerical models that employ the rate-and-state frictional (RSF) framework to investigate...
[1] We study how enforcing self-consistency in the statistical properties of the preshear and postsh...
The dynamics of a fault with heterogeneous friction is studied by employing a discrete fault model w...
International audienceNumerical simulation of the rupture process is usually performed under an assu...
An instability of frictional sliding driven by tectonic stress is assumed to be the source of earthq...
Abstract Precursory seismicity is often observed before a large earthquake. Small foreshocks occur w...
We propose that lateral variations in fault friction control the heterogeneity of slip observed in l...
Abstract Observations demonstrate that faults are fractal surfaces with deviations from planarity at...
A debate has raged over whether fixed material and geometrical heterogeneities, or alternatively dyn...