We propose that lateral variations in fault friction control the heterogeneity of slip observed in large earthquakes, We model these variations using a rate and state-dependent friction law, where we differentiate velocity-weakening into strong and weak-seismic fields, and velocity-strengthening into compliant and viscous fields. The strong-seismic field comprises the seismic slip concentrations, or asperities. The two «intermediate» frictional fields, weak-seismic and compliant, modulate both the tectonic loading and the dynamic rupture process. During the interseismic period, the compliant and viscous regions slip aseismically while the strong-seismic regions remain locked, evolving into stress concentrations that fail only in main shocks...
International audienceWe study how a stress perturbation generated by a main shock affects a fault o...
We examine numerical models that employ the rate-and-state frictional (RSF) framework to investigate...
I perform numerical simulation of slip process on a two-dimensional planar fault in an infinite unif...
We propose that lateral variations in fault friction control the heterogeneity of slip observed in l...
Abstract Precursory seismicity is often observed before a large earthquake. Small foreshocks occur w...
We propose a model which describes the formation of a strong asperity on a fault. We consider a faul...
It has recently been proposed by several authors that stress distribution around active faults may b...
I study the physics and mechanics underlying seismic and aseismic slip. The slip behaviors are simul...
International audienceAbstract. Natural fault networks are geometrically complex systems that evolve...
The complex geometry of faults, seismicity, and diversity of earthquake mechanisms suggest that the ...
We consider a fault containing two regions with different mechanical behaviours: a strong, velocity-...
Recent models of earthquake faults involve heterogeneous slip regions along the faults. Some of this...
An instability of frictional sliding driven by tectonic stress is assumed to be the source of earthq...
International audienceWe study how a stress perturbation generated by a main shock affects a fault o...
We examine numerical models that employ the rate-and-state frictional (RSF) framework to investigate...
I perform numerical simulation of slip process on a two-dimensional planar fault in an infinite unif...
We propose that lateral variations in fault friction control the heterogeneity of slip observed in l...
Abstract Precursory seismicity is often observed before a large earthquake. Small foreshocks occur w...
We propose a model which describes the formation of a strong asperity on a fault. We consider a faul...
It has recently been proposed by several authors that stress distribution around active faults may b...
I study the physics and mechanics underlying seismic and aseismic slip. The slip behaviors are simul...
International audienceAbstract. Natural fault networks are geometrically complex systems that evolve...
The complex geometry of faults, seismicity, and diversity of earthquake mechanisms suggest that the ...
We consider a fault containing two regions with different mechanical behaviours: a strong, velocity-...
Recent models of earthquake faults involve heterogeneous slip regions along the faults. Some of this...
An instability of frictional sliding driven by tectonic stress is assumed to be the source of earthq...
International audienceWe study how a stress perturbation generated by a main shock affects a fault o...
We examine numerical models that employ the rate-and-state frictional (RSF) framework to investigate...
I perform numerical simulation of slip process on a two-dimensional planar fault in an infinite unif...