Numerical discretization of the large-scale Maxwell's equations leads to an ill-conditioned linear system that is challenging to solve. The key requirement for successive solutions of this linear system is to choose an efficient solver. In this work we use Perfectly Matched Layers (PML) to increase this efficiency. PML have been widely used to truncate numerical simulations of wave equations due to improving the accuracy of the solution instead of using absorbing boundary conditions (ABCs). Here, we will develop an efficient solver by providing an alternative use of PML as transmission conditions at the interfaces between subdomains in our domain decomposition method. We solve Maxwell's equations and assess the convergence rate of our solut...
AbstractThe discontinuous Galerkin method has proved to be an accurate and efficient way to numerica...
Abstract. We consider the application of a perfectly matched layer (PML) technique to approximate so...
International audienceIt is well-known that the convergence rate of non-overlapping domain decomposi...
International audienceIn this work, we have designed a numerical model to solve a three-dimensional ...
The time-harmonic Maxwell equations describe the propagation of electromag-netic waves and are there...
The time-harmonic Maxwell equations describe the propagation of electromagnetic waves and are theref...
International audienceThe time-harmonic Maxwell equations describe the propagation of electromagneti...
International audienceThis paper presents a new non-overlapping domain decomposition method for the ...
The time-harmonic Maxwell equations describe the propagation of electromagnetic waves and are theref...
This paper rigorously analyses preconditioners for the time-harmonic Maxwell equations with absorpti...
Les équations de Maxwell en régime harmonique comportent plusieurs difficultés lorsque la fréquence ...
Perfectly matched layer (PML) absorbers deteriorate the condition of the resulting finite-element sp...
International audienceWe present a flexible finite element solver for testing optimized Schwarz doma...
The perfectly matched layer (PML) is a perfectly non-reflecting layer that simulates the absorption ...
The Perfectly Matched Layer (PML) technique is an effective tool introduced by B´erenger [13] to red...
AbstractThe discontinuous Galerkin method has proved to be an accurate and efficient way to numerica...
Abstract. We consider the application of a perfectly matched layer (PML) technique to approximate so...
International audienceIt is well-known that the convergence rate of non-overlapping domain decomposi...
International audienceIn this work, we have designed a numerical model to solve a three-dimensional ...
The time-harmonic Maxwell equations describe the propagation of electromag-netic waves and are there...
The time-harmonic Maxwell equations describe the propagation of electromagnetic waves and are theref...
International audienceThe time-harmonic Maxwell equations describe the propagation of electromagneti...
International audienceThis paper presents a new non-overlapping domain decomposition method for the ...
The time-harmonic Maxwell equations describe the propagation of electromagnetic waves and are theref...
This paper rigorously analyses preconditioners for the time-harmonic Maxwell equations with absorpti...
Les équations de Maxwell en régime harmonique comportent plusieurs difficultés lorsque la fréquence ...
Perfectly matched layer (PML) absorbers deteriorate the condition of the resulting finite-element sp...
International audienceWe present a flexible finite element solver for testing optimized Schwarz doma...
The perfectly matched layer (PML) is a perfectly non-reflecting layer that simulates the absorption ...
The Perfectly Matched Layer (PML) technique is an effective tool introduced by B´erenger [13] to red...
AbstractThe discontinuous Galerkin method has proved to be an accurate and efficient way to numerica...
Abstract. We consider the application of a perfectly matched layer (PML) technique to approximate so...
International audienceIt is well-known that the convergence rate of non-overlapping domain decomposi...