Abstract We present a new method for near-source ground-motion calculations due to earthquake rupture on potentially geometrically complex faults. Following the recently introduced Discontinuous Galerkin approach with local time stepping on tetrahedral meshes, we use piecewise polynomial approximations of the unknown variables inside each element and achieve the same approximation order in time and space due to the new ADER time integration scheme that uses Arbitrary high-order DERivatives. We show how an external source term and its heterogeneous properties in space and time, given by a fine discretization of an extended rupture surface, can be included in much coarser tetrahedral meshes due to the subcell resolution of the high-order poly...
ABSTRACT Accurate prediction of the intensity and variability of strong ground motions for future la...
National audienceWe present large scale Dynamic Rupture simulations for a normal fault in SuperShear...
Accurate prediction of the intensity and variability of strong ground motions for future large eart...
Abstract. Accurate and efficient numerical methods to simulate dynamic earthquake rup-ture and wave ...
Accurate and efficient numerical methods to simulate dynamic earthquake rupture and wave propagation...
SUMMARY This article describes the extension of the arbitrary high-order Discontinuous Galerkin (AD...
Our goal is to develop scalable and adaptive (spatial and temporal) numerical methods for coupled, ...
We present results of thorough benchmarking of an arbitrary high-order derivative discontinuous Gale...
This thesis discusses simulations of earthquake ground motions using prescribed ruptures and dynamic...
We introduce the application of an arbitrary high-order derivative (ADER) discontinuous Galerkin (DG...
We present a 2-D multi-block method for earthquake rupture dynamics in complex geometries using summ...
Abstract. We present a Discontinuous Galerkin (DG) finite element method combined with an time integ...
Abstract We present a new strategy to estimate the geometry of a rupture on a finite fault in real t...
We develop a stable and high-order accurate finite difference method for problems in earthquake rupt...
This thesis discusses simulations of earthquake ground motions using prescribed ruptures and dynamic...
ABSTRACT Accurate prediction of the intensity and variability of strong ground motions for future la...
National audienceWe present large scale Dynamic Rupture simulations for a normal fault in SuperShear...
Accurate prediction of the intensity and variability of strong ground motions for future large eart...
Abstract. Accurate and efficient numerical methods to simulate dynamic earthquake rup-ture and wave ...
Accurate and efficient numerical methods to simulate dynamic earthquake rupture and wave propagation...
SUMMARY This article describes the extension of the arbitrary high-order Discontinuous Galerkin (AD...
Our goal is to develop scalable and adaptive (spatial and temporal) numerical methods for coupled, ...
We present results of thorough benchmarking of an arbitrary high-order derivative discontinuous Gale...
This thesis discusses simulations of earthquake ground motions using prescribed ruptures and dynamic...
We introduce the application of an arbitrary high-order derivative (ADER) discontinuous Galerkin (DG...
We present a 2-D multi-block method for earthquake rupture dynamics in complex geometries using summ...
Abstract. We present a Discontinuous Galerkin (DG) finite element method combined with an time integ...
Abstract We present a new strategy to estimate the geometry of a rupture on a finite fault in real t...
We develop a stable and high-order accurate finite difference method for problems in earthquake rupt...
This thesis discusses simulations of earthquake ground motions using prescribed ruptures and dynamic...
ABSTRACT Accurate prediction of the intensity and variability of strong ground motions for future la...
National audienceWe present large scale Dynamic Rupture simulations for a normal fault in SuperShear...
Accurate prediction of the intensity and variability of strong ground motions for future large eart...