We present forward and adjoint spectral-element simulations of coupled acoustic and (an)elastic seismic wave propagation on fully unstructured hexahedral meshes. Simulations benefit from recent advances in hexahedral meshing, load balancing and software optimization. Meshing may be accomplished using a mesh generation tool kit such as CUBIT, and load balancing is facilitated by graph partitioning based on the SCOTCH library. Coupling between fluid and solid regions is incorporated in a straightforward fashion using domain decomposition. Topography, bathymetry and Moho undulations may be readily included in the mesh, and physical dispersion and attenuation associated with anelasticity are accounted for using a series of standard linear solid...
An important goal of computational seismology is to simulate dynamic earthquake rupture and strong g...
International audienceMany scientific applications require accurate modeling of seismic wave propaga...
We introduce SPECFEM2D-DG, an open-source, time-domain, hybrid Galerkin software modelling the prop...
International audienceWe present forward and adjoint spectral-element simulations of coupled acousti...
International audienceHybrid meshes comprised of hexahedras and te-trahedras are particularly intere...
Unstructured hexahedral mesh generation is a critical part of the modeling process in the Spectral-E...
We provide an introduction to the use of the spectral-element method (SEM) in seismology. Following ...
In this dissertation, new and more efficient finite element methods for modelling seismic wave propa...
The first part of my thesis focuses on seismic modeling in fractured media. Several recent developme...
textPurely numerical methods based on the Finite Element Method (FEM) are becoming increasingly pop...
We present an extension of the 3-D spectral element method (SEM), called the Gaussian quadrature gri...
Seismic imaging is a geophysical technique assisting in the understanding of subsurface structure on...
We present a comprehensive review of Discontinuous Galerkin Spectral Element (DGSE) methods on hybri...
Surface wave analysis and inversion have been developed to improve P-wave imaging for hydrocarbon re...
An important goal of computational seismology is to simulate dynamic earthquake rupture and strong g...
International audienceMany scientific applications require accurate modeling of seismic wave propaga...
We introduce SPECFEM2D-DG, an open-source, time-domain, hybrid Galerkin software modelling the prop...
International audienceWe present forward and adjoint spectral-element simulations of coupled acousti...
International audienceHybrid meshes comprised of hexahedras and te-trahedras are particularly intere...
Unstructured hexahedral mesh generation is a critical part of the modeling process in the Spectral-E...
We provide an introduction to the use of the spectral-element method (SEM) in seismology. Following ...
In this dissertation, new and more efficient finite element methods for modelling seismic wave propa...
The first part of my thesis focuses on seismic modeling in fractured media. Several recent developme...
textPurely numerical methods based on the Finite Element Method (FEM) are becoming increasingly pop...
We present an extension of the 3-D spectral element method (SEM), called the Gaussian quadrature gri...
Seismic imaging is a geophysical technique assisting in the understanding of subsurface structure on...
We present a comprehensive review of Discontinuous Galerkin Spectral Element (DGSE) methods on hybri...
Surface wave analysis and inversion have been developed to improve P-wave imaging for hydrocarbon re...
An important goal of computational seismology is to simulate dynamic earthquake rupture and strong g...
International audienceMany scientific applications require accurate modeling of seismic wave propaga...
We introduce SPECFEM2D-DG, an open-source, time-domain, hybrid Galerkin software modelling the prop...