We present a high-order difference method for problems in elastodynamics involving the interaction of waves with highly nonlinear frictional interfaces. We restrict our attention to two-dimensional antiplane problems involving deformation in only one direction. Jump conditions that relate tractions on the interface, or fault, to the relative sliding velocity across it are of a form closely related to those used in earthquake rupture models and other frictional sliding problems. By using summation-by-parts (SBP) finite difference operators and weak enforcement of boundary and interface conditions, a strictly stable method is developed. Furthermore, it is shown that unless the nonlinear interface conditions are formulated in terms of characte...
We have simulated several scenarios of dynamic rupture propagation for the 1994 Northridge, Califor...
We present a 2-D multi-block method for earthquake rupture dynamics in complex geometries using summ...
The functional form of the friction law employed in dynamic earthquake simulations is directly relat...
We present a high-order difference method for problems in elastodynamics involving the interaction o...
We develop a stable and high-order accurate finite difference method for problems in earthquake rupt...
The linear elastodynamic two-dimensional anti-plane stress problem, where deformations occur in only...
A numerical method suitable for wave propagation problems in complex geometries is developed for sim...
We develop a new finite difference method for the wave equation in second order form. The finite dif...
[1] The spontaneously propagating shear crack on a frictional interface has proven to be a useful id...
UnrestrictedThis thesis examines dynamic ruptures along frictional interfaces and seismic radiation ...
[1] The interaction of elastodynamic waves with imperfect interfaces is usually described by the so-...
This paper presents a mortar-based finite element formulation for modeling the dynamics of shear rup...
The aim of this work is to present the results from a non linear finite element analysis in large tr...
The rupture dynamics of earthquakes span a considerable range, from slow to super-shear ruptures. Ru...
Curvilinear, multiblock summation-by-parts finite difference operators with the simultaneous approxi...
We have simulated several scenarios of dynamic rupture propagation for the 1994 Northridge, Califor...
We present a 2-D multi-block method for earthquake rupture dynamics in complex geometries using summ...
The functional form of the friction law employed in dynamic earthquake simulations is directly relat...
We present a high-order difference method for problems in elastodynamics involving the interaction o...
We develop a stable and high-order accurate finite difference method for problems in earthquake rupt...
The linear elastodynamic two-dimensional anti-plane stress problem, where deformations occur in only...
A numerical method suitable for wave propagation problems in complex geometries is developed for sim...
We develop a new finite difference method for the wave equation in second order form. The finite dif...
[1] The spontaneously propagating shear crack on a frictional interface has proven to be a useful id...
UnrestrictedThis thesis examines dynamic ruptures along frictional interfaces and seismic radiation ...
[1] The interaction of elastodynamic waves with imperfect interfaces is usually described by the so-...
This paper presents a mortar-based finite element formulation for modeling the dynamics of shear rup...
The aim of this work is to present the results from a non linear finite element analysis in large tr...
The rupture dynamics of earthquakes span a considerable range, from slow to super-shear ruptures. Ru...
Curvilinear, multiblock summation-by-parts finite difference operators with the simultaneous approxi...
We have simulated several scenarios of dynamic rupture propagation for the 1994 Northridge, Califor...
We present a 2-D multi-block method for earthquake rupture dynamics in complex geometries using summ...
The functional form of the friction law employed in dynamic earthquake simulations is directly relat...