Perfectly matched layers (PMLs) provide an exponential decay, independent of the frequency, of any propagating field along an assigned direction without producing spurious reflections at the interface with the elastic volume. For this reason PMLs have been applied as absorbing boundary conditions (ABCs) and their efficiency in attenuating outgoing wave fields on the outskirts of numerical grids is more and more recognized. However, PMLs are designed for first-order differential equations and a natural extension to second-order Partial Differential Equations (PDEs) involves either additional variables in the time evolution scheme or convolutional operations. Both techniques are computationally expensive when implemented in a spectral element...
The perfectly matched layer (PML) is a perfectly non-reflecting layer that simulates the absorption ...
International audiencePerfectly matched layers (PMLs) are widely used for the numerical simulation o...
One approach to the numerical solution of a wave equation on an unbounded domain uses a bounded doma...
Perfectly matched layers (PMLs) provide an exponential decay, independent of the frequency, of any p...
International audienceThis review article revisits and outlines the perfectly matched layer (PML) me...
Collino and Tsogka [1] developed a perfectly matched layer (PML) model based on the elastodynamics e...
A method is presented for application of the perfectly matched layer (PML) absorbing boundary condit...
textWe are concerned with forward wave motion simulations in two-dimensional elastic, heterogeneous,...
The use of perfectly matched layers (PML) has recently been introduced by Berenger as a material abs...
The use of perfectly matched layers (PML) has recently been introduced by Berenger as a material abs...
High-order absorbing boundary conditions (ABC) and perfectly matched layers (PML) are two powerful m...
Absorbing boundary conditions are a requisite element of many computational wave prop-agation proble...
Abstract: In the context of the numerical simulation of seismic wave propaga-tion, the perfectly mat...
Abstract: Unsplit convolutional perfectly matched layers (CPML) for the veloc-ity and stress formula...
International audienceFor considering elastic seismic wave propagation in large domains, efficient a...
The perfectly matched layer (PML) is a perfectly non-reflecting layer that simulates the absorption ...
International audiencePerfectly matched layers (PMLs) are widely used for the numerical simulation o...
One approach to the numerical solution of a wave equation on an unbounded domain uses a bounded doma...
Perfectly matched layers (PMLs) provide an exponential decay, independent of the frequency, of any p...
International audienceThis review article revisits and outlines the perfectly matched layer (PML) me...
Collino and Tsogka [1] developed a perfectly matched layer (PML) model based on the elastodynamics e...
A method is presented for application of the perfectly matched layer (PML) absorbing boundary condit...
textWe are concerned with forward wave motion simulations in two-dimensional elastic, heterogeneous,...
The use of perfectly matched layers (PML) has recently been introduced by Berenger as a material abs...
The use of perfectly matched layers (PML) has recently been introduced by Berenger as a material abs...
High-order absorbing boundary conditions (ABC) and perfectly matched layers (PML) are two powerful m...
Absorbing boundary conditions are a requisite element of many computational wave prop-agation proble...
Abstract: In the context of the numerical simulation of seismic wave propaga-tion, the perfectly mat...
Abstract: Unsplit convolutional perfectly matched layers (CPML) for the veloc-ity and stress formula...
International audienceFor considering elastic seismic wave propagation in large domains, efficient a...
The perfectly matched layer (PML) is a perfectly non-reflecting layer that simulates the absorption ...
International audiencePerfectly matched layers (PMLs) are widely used for the numerical simulation o...
One approach to the numerical solution of a wave equation on an unbounded domain uses a bounded doma...