One-dimensional (1D) three-component (3C) spectral element modeling (SEM) of seismic wave propagation in nonlinear media with pore-pressure effect
The Spectral-Element Method (SEM) is a finite-element method that solves the wave equa-tion in the t...
We computed the global wavefield excited by Model III using the spectral element method (SEM) (1) fo...
Despite recent advances in High Performance Computing (HPC), numerical simulation of high frequency ...
One-dimensional (1D) three-component (3C) spectral element modeling (SEM) of seismic wave propagatio...
Numerical modelling of seismic wave propagation, considering soil nonlinearity, has becomea major to...
International audienceIt has long been recognized that the effects of superficial geological layers,...
The accurate calculation of seismograms in realistic 3-D Earth models has become a necessit y in sei...
Sent to Geophysical Journal International on July 29, 2003.This paper deals with the spectral elemen...
This paper deals with the spectral element modeling of seismic wave propagation at the global scale....
International audienceThe influence of pore water pressure has to be taken into account when the pro...
The influence of pore water pressure has to be taken into account when the propagation of seismic wa...
International audienceTo analyze seismic wave propagation in geological structures, it is possible t...
Abstract. We use a Spectral-Element Method implemented on the Earth Simulator in Japan to simulate b...
The Biot theory provides a general framework for describing the seismic response of porous media. Pr...
An effective poroelastic model is proposed that describes seismic attenuation and dispersion in peri...
The Spectral-Element Method (SEM) is a finite-element method that solves the wave equa-tion in the t...
We computed the global wavefield excited by Model III using the spectral element method (SEM) (1) fo...
Despite recent advances in High Performance Computing (HPC), numerical simulation of high frequency ...
One-dimensional (1D) three-component (3C) spectral element modeling (SEM) of seismic wave propagatio...
Numerical modelling of seismic wave propagation, considering soil nonlinearity, has becomea major to...
International audienceIt has long been recognized that the effects of superficial geological layers,...
The accurate calculation of seismograms in realistic 3-D Earth models has become a necessit y in sei...
Sent to Geophysical Journal International on July 29, 2003.This paper deals with the spectral elemen...
This paper deals with the spectral element modeling of seismic wave propagation at the global scale....
International audienceThe influence of pore water pressure has to be taken into account when the pro...
The influence of pore water pressure has to be taken into account when the propagation of seismic wa...
International audienceTo analyze seismic wave propagation in geological structures, it is possible t...
Abstract. We use a Spectral-Element Method implemented on the Earth Simulator in Japan to simulate b...
The Biot theory provides a general framework for describing the seismic response of porous media. Pr...
An effective poroelastic model is proposed that describes seismic attenuation and dispersion in peri...
The Spectral-Element Method (SEM) is a finite-element method that solves the wave equa-tion in the t...
We computed the global wavefield excited by Model III using the spectral element method (SEM) (1) fo...
Despite recent advances in High Performance Computing (HPC), numerical simulation of high frequency ...