We have simulated several scenarios of dynamic rupture propagation for the 1994 Northridge, California, earthquake, using a three-dimensional finite-difference method. The simulations use a rate- and slip-weakening friction law, starting from a range of initial conditions of stress and frictional parameters. A critical balance between initial conditions and friction parameters must be met in order to obtain a moment as well as a final slip distribution in agreement with kinematic slip inversion results. We find that the rupture process is strongly controlled by the average stress and connectivity of high-stress patches on the fault. In particular, a strong connectivity of the high-stress patches is required in order to promote the ru...
Dynamic earthquake models can help us in the ambitious understanding, from a deterministic point of...
In this work we present a 3D Finite Difference numerical method to model the dynamic spontaneous pro...
Abstract We study dynamic rupture propagation on flat faults using 2D plane strain models featuring ...
We have simulated several scenarios of dynamic rupture propagation for the 1994 Northridge, Californ...
We investigate the effects of non-uniform distribution of constitutive parameters on the dynamic pro...
We investigate the effects of non-uniform distribution of constitutive parameters on the dynamic pro...
We investigate the effects of non-uniform distribution of constitutive parameters on the dynamic pro...
This thesis discusses simulations of earthquake ground motions using prescribed ruptures and dynamic...
The functional form of the friction law employed in dynamic earthquake simulations is directly relat...
We simulate dynamic ruptures on a strike-slip fault in homogeneous and layered half-spaces and on a ...
We simulate dynamic ruptures on a strike-slip fault in homogeneous and layered half-spaces and on a ...
In this work we present a 3D Finite Difference numerical method to model the dynamic spontaneous pro...
In this work we present a 3D Finite Difference numerical method to model the dynamic spontaneous pro...
[1] We study the distribution of initial stress and frictional parameters for the 28 June 1992 Lande...
We have developed a finite difference method that is especially adapted to the study of dynamic shea...
Dynamic earthquake models can help us in the ambitious understanding, from a deterministic point of...
In this work we present a 3D Finite Difference numerical method to model the dynamic spontaneous pro...
Abstract We study dynamic rupture propagation on flat faults using 2D plane strain models featuring ...
We have simulated several scenarios of dynamic rupture propagation for the 1994 Northridge, Californ...
We investigate the effects of non-uniform distribution of constitutive parameters on the dynamic pro...
We investigate the effects of non-uniform distribution of constitutive parameters on the dynamic pro...
We investigate the effects of non-uniform distribution of constitutive parameters on the dynamic pro...
This thesis discusses simulations of earthquake ground motions using prescribed ruptures and dynamic...
The functional form of the friction law employed in dynamic earthquake simulations is directly relat...
We simulate dynamic ruptures on a strike-slip fault in homogeneous and layered half-spaces and on a ...
We simulate dynamic ruptures on a strike-slip fault in homogeneous and layered half-spaces and on a ...
In this work we present a 3D Finite Difference numerical method to model the dynamic spontaneous pro...
In this work we present a 3D Finite Difference numerical method to model the dynamic spontaneous pro...
[1] We study the distribution of initial stress and frictional parameters for the 28 June 1992 Lande...
We have developed a finite difference method that is especially adapted to the study of dynamic shea...
Dynamic earthquake models can help us in the ambitious understanding, from a deterministic point of...
In this work we present a 3D Finite Difference numerical method to model the dynamic spontaneous pro...
Abstract We study dynamic rupture propagation on flat faults using 2D plane strain models featuring ...