International audienceIn this work we design and analyze new perfectly matched layers (PML) for a dispersive waves equation : the Klein Gordon equation. We show that because of the dispersion, classical PMLs do not guarantee the convergence to zero of the error, which hampers the precision in long time simulation. We propose to consider a non-local PML for which we can obtain explicit uniform estimates for the reflected analytical solution in time domain, given by an integral representation formula. This uniform estimates ensure the convergence of the error to zero at fixed time t and guarantee the accuracy of the layer. For the implementation of the new PML, we propose a localization technique that we validate numerically
this paper, we couple fast nonreflecting boundary conditions, developed in [3] for spherical and cyl...
Graduation date: 2016A perfectly matched layer (PML) is widely used to model many different types of...
The perfectly matched layer (PML) is a perfectly non-reflecting layer that simulates the absorption ...
International audienceIn this work we design and analyze new perfectly matched layers (PML) for a di...
International audienceWe prove global in time dispersion for the wave and the Klein-Gordon equation ...
In this thesis we study the applications of the PML in a multi-layered media. The PML is constructed...
This work is dedicated to the analysis of generalized perfectly matched layers (PMLs) for 2D electro...
This work is dedicated to the analysis of generalized perfectly matched layers (PMLs) for 2D electro...
The Perfectly Matched Layer (PML) has become a widespread technique for pre-venting reflections from...
The Perfectly Matched Layer (PML) technique is an effective tool introduced by B´erenger [13] to red...
Abstract. We consider the application of a perfectly matched layer (PML) technique to approximate so...
Perfectly Matched Layers (PML) are widely used for the simulation of unbounded wave-like problems. ...
High-order absorbing boundary conditions (ABC) and perfectly matched layers (PML) are two powerful m...
This paper studies the perfectly-matched-layer (PML) method for wave scattering in a half space of h...
In this paper, the focus is on numerical results from calculations of scattered direct waves, origin...
this paper, we couple fast nonreflecting boundary conditions, developed in [3] for spherical and cyl...
Graduation date: 2016A perfectly matched layer (PML) is widely used to model many different types of...
The perfectly matched layer (PML) is a perfectly non-reflecting layer that simulates the absorption ...
International audienceIn this work we design and analyze new perfectly matched layers (PML) for a di...
International audienceWe prove global in time dispersion for the wave and the Klein-Gordon equation ...
In this thesis we study the applications of the PML in a multi-layered media. The PML is constructed...
This work is dedicated to the analysis of generalized perfectly matched layers (PMLs) for 2D electro...
This work is dedicated to the analysis of generalized perfectly matched layers (PMLs) for 2D electro...
The Perfectly Matched Layer (PML) has become a widespread technique for pre-venting reflections from...
The Perfectly Matched Layer (PML) technique is an effective tool introduced by B´erenger [13] to red...
Abstract. We consider the application of a perfectly matched layer (PML) technique to approximate so...
Perfectly Matched Layers (PML) are widely used for the simulation of unbounded wave-like problems. ...
High-order absorbing boundary conditions (ABC) and perfectly matched layers (PML) are two powerful m...
This paper studies the perfectly-matched-layer (PML) method for wave scattering in a half space of h...
In this paper, the focus is on numerical results from calculations of scattered direct waves, origin...
this paper, we couple fast nonreflecting boundary conditions, developed in [3] for spherical and cyl...
Graduation date: 2016A perfectly matched layer (PML) is widely used to model many different types of...
The perfectly matched layer (PML) is a perfectly non-reflecting layer that simulates the absorption ...