International audienceThis work is concerned with the development of numerical methods for the simulation of time-harmonic electromagnetic wave propagation problems. A hybridizable discontinuous Galerkin (HDG) method is adopted for the discretization of the two-dimensional time-harmonic Maxwell’s equations on a triangular mesh. A distinguishing feature of the present work is that this discretization method is employed at the subdomain level in the framework of a Schwarz-type domain decomposition algorithm (DDM). We show that HDG method naturally couples with a Schwarz method relying on optimized transmission conditions. The presented numerical results show the effectiveness of the optimized DDM-HDG method
Abstract — A domain decomposition strategy is introduced in order to solve time-harmonic Maxwell’s e...
Abstract. This work is concerned with the design of a hp-like discontinuous Galerkin (DG) method for...
Discontinuous Galerkin (DG) methods have been extensively studied in the recent years (Arnold et al....
International audienceThis work is concerned with the development of numerical methods for the simul...
We show in this paper how to properly discretize optimized Schwarz methods for the time-harmonic Max...
We show in this paper how to properly discretize optimized Schwarz methods for the time-harmonic Max...
International audienceWe are interested here in the numerical modeling of time-harmonic electromagne...
We present here a domain decomposition method for solving the three-dimensional time-harmonic Maxwel...
4 pages.International audienceThe numerical solution of the three-dimensional time-harmonic Maxwell ...
We show in this paper how to properly discretize optimized Schwarz methods for the time-harmonic Max...
International audienceThis study is concerned with the numerical solution of 2D electromagnetic wave...
International audienceA Schwarz-type domain decomposition method is presented for the solution of th...
International audienceWe study the numerical solution of 3d time-harmonic Maxwell's equations by a h...
AbstractWe present numerical results concerning the solution of the time-harmonic Maxwell equations ...
We present an explicit hybridizable discontinuous Galerkin (HDG) method for numerically solving the ...
Abstract — A domain decomposition strategy is introduced in order to solve time-harmonic Maxwell’s e...
Abstract. This work is concerned with the design of a hp-like discontinuous Galerkin (DG) method for...
Discontinuous Galerkin (DG) methods have been extensively studied in the recent years (Arnold et al....
International audienceThis work is concerned with the development of numerical methods for the simul...
We show in this paper how to properly discretize optimized Schwarz methods for the time-harmonic Max...
We show in this paper how to properly discretize optimized Schwarz methods for the time-harmonic Max...
International audienceWe are interested here in the numerical modeling of time-harmonic electromagne...
We present here a domain decomposition method for solving the three-dimensional time-harmonic Maxwel...
4 pages.International audienceThe numerical solution of the three-dimensional time-harmonic Maxwell ...
We show in this paper how to properly discretize optimized Schwarz methods for the time-harmonic Max...
International audienceThis study is concerned with the numerical solution of 2D electromagnetic wave...
International audienceA Schwarz-type domain decomposition method is presented for the solution of th...
International audienceWe study the numerical solution of 3d time-harmonic Maxwell's equations by a h...
AbstractWe present numerical results concerning the solution of the time-harmonic Maxwell equations ...
We present an explicit hybridizable discontinuous Galerkin (HDG) method for numerically solving the ...
Abstract — A domain decomposition strategy is introduced in order to solve time-harmonic Maxwell’s e...
Abstract. This work is concerned with the design of a hp-like discontinuous Galerkin (DG) method for...
Discontinuous Galerkin (DG) methods have been extensively studied in the recent years (Arnold et al....