In this paper, we develop a nodal discontinuous Galerkin method for solving the time-dependent Maxwell's equations when metamaterials are involved. Both semi- and fully-discrete schemes are constructed. Numerical stability and error estimate are proved for both schemes. Numerical results are presented to demonstrate that the method is not only efficient but also very effective in solving metamaterial Maxwell's equations. (C) 2013 Elsevier Inc. All rights reserved
The propagation of electromagnetic waves can be studied by solving Maxwell’s equations. Similarly, ...
International audienceThe numerical study of electromagnetic wave propagation in nanophotonic device...
We show in this paper how to properly discretize optimized Schwarz methods for the time-harmonic Max...
AbstractThe discontinuous Galerkin method has proved to be an accurate and efficient way to numerica...
Discontinuous Galerkin Finite Element Method (DG-FEM) has been further developed in this dissertatio...
This dissertation investigates three different mathematical models based on the time domain Maxwell\...
Research paperSome electromagnetic materials exhibit, in a given frequency range, effective dielectr...
The discontinuous Galerkin method (DGM) is applied to a number of problems in computational electrom...
International audienceThis work is concerned with the design of a hp-like discontinuous Galerkin (DG...
International audienceThis paper is concerned with the design of a high-order discontinuous Galerkin...
We show in this paper how to properly discretize optimized Schwarz methods for the time-harmonic Max...
In this paper we propose a high-order space-time discontinuous Galerkin (STDG) method for solving of...
AbstractIn this paper, we discuss the time-domain metamaterial Maxwell’s equations. One major contri...
• High-order computational methods are vital for simulat-ing electromagnetic phenomena with large an...
International audienceThis paper reviews the main features of a high-order non-dissipative discontin...
The propagation of electromagnetic waves can be studied by solving Maxwell’s equations. Similarly, ...
International audienceThe numerical study of electromagnetic wave propagation in nanophotonic device...
We show in this paper how to properly discretize optimized Schwarz methods for the time-harmonic Max...
AbstractThe discontinuous Galerkin method has proved to be an accurate and efficient way to numerica...
Discontinuous Galerkin Finite Element Method (DG-FEM) has been further developed in this dissertatio...
This dissertation investigates three different mathematical models based on the time domain Maxwell\...
Research paperSome electromagnetic materials exhibit, in a given frequency range, effective dielectr...
The discontinuous Galerkin method (DGM) is applied to a number of problems in computational electrom...
International audienceThis work is concerned with the design of a hp-like discontinuous Galerkin (DG...
International audienceThis paper is concerned with the design of a high-order discontinuous Galerkin...
We show in this paper how to properly discretize optimized Schwarz methods for the time-harmonic Max...
In this paper we propose a high-order space-time discontinuous Galerkin (STDG) method for solving of...
AbstractIn this paper, we discuss the time-domain metamaterial Maxwell’s equations. One major contri...
• High-order computational methods are vital for simulat-ing electromagnetic phenomena with large an...
International audienceThis paper reviews the main features of a high-order non-dissipative discontin...
The propagation of electromagnetic waves can be studied by solving Maxwell’s equations. Similarly, ...
International audienceThe numerical study of electromagnetic wave propagation in nanophotonic device...
We show in this paper how to properly discretize optimized Schwarz methods for the time-harmonic Max...