Rupture-dependent breakdown energy in fault models with thermo-hydro-mechanical processes
- Lambert, Valere
- Lapusta, Nadia
DOIAbstract
Data for simulations of sequences of earthquakes and aseismic slip with thermal pressurization of pore fluids
Data for simulations of sequences of earthquakes and aseismic slip with thermal pressurization of pore fluids
We investigate the dynamic traction evolution within the cohesive zone during the spontaneous propa...
Abstract The critical breakdown displacement, Dc, in which friction drops to its sliding value, can ...
When an earthquake nucleates in the earth crust, the potential energy accumulated during the inter-s...
Substantial insight into earthquake source processes has resulted from considering frictional ruptur...
We simulate an earthquake rupture through a 3 - D Finite Difference algorithm using the traction a...
We investigate the role of frictional heating and thermal pressurization on earthquake ruptures by m...
We estimate fracture energy on extended faults for several recent earthquakes by retrieving dynamic ...
A new methodology for three-dimensional (3-D) simulations of earthquake sequences is presented that ...
Data from simulations of earthquake sequences and aseismic slip with thermal pressurization and diff...
An earthquake is a rupture process occurring in Earth's interior under tectonic stresses caused pri...
In this paper we attempt to reconcile a theoretical understanding of the earthquake energy balance w...
A major goal in earthquake physics is to derive a constitutive framework for fault slip that capture...
The fault weakening occurring during an earthquake and the temporal evolution of the traction on a s...
The mechanical response of a fault zone during an earthquake may be controlled by the diffusion of e...
This thesis focuses on two main topics, the physics governing how faults rapidly weaken during an ea...
We investigate the dynamic traction evolution within the cohesive zone during the spontaneous propa...
Abstract The critical breakdown displacement, Dc, in which friction drops to its sliding value, can ...
When an earthquake nucleates in the earth crust, the potential energy accumulated during the inter-s...
Substantial insight into earthquake source processes has resulted from considering frictional ruptur...
We simulate an earthquake rupture through a 3 - D Finite Difference algorithm using the traction a...
We investigate the role of frictional heating and thermal pressurization on earthquake ruptures by m...
We estimate fracture energy on extended faults for several recent earthquakes by retrieving dynamic ...
A new methodology for three-dimensional (3-D) simulations of earthquake sequences is presented that ...
Data from simulations of earthquake sequences and aseismic slip with thermal pressurization and diff...
An earthquake is a rupture process occurring in Earth's interior under tectonic stresses caused pri...
In this paper we attempt to reconcile a theoretical understanding of the earthquake energy balance w...
A major goal in earthquake physics is to derive a constitutive framework for fault slip that capture...
The fault weakening occurring during an earthquake and the temporal evolution of the traction on a s...
The mechanical response of a fault zone during an earthquake may be controlled by the diffusion of e...
This thesis focuses on two main topics, the physics governing how faults rapidly weaken during an ea...
We investigate the dynamic traction evolution within the cohesive zone during the spontaneous propa...
Abstract The critical breakdown displacement, Dc, in which friction drops to its sliding value, can ...
When an earthquake nucleates in the earth crust, the potential energy accumulated during the inter-s...
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