Accurate characterization of 3D diffraction gratings using time domain discontinuous Galerkin method with exact absorbing boundary conditions.

by K. Sirenko,, Y. Sirenko, H. Bagci
Refereed Journals Year: 2013

Bibliography

K. Sirenko, Y. Sirenko, and H. Bagci, Accurate characterization of 3D diffraction gratings using time domain discontinuous Galerkin method with exact absorbing boundary conditions, in Proc. IEEE Int. Symp. Antennas Pro

Abstract

Exact absorbing and periodic boundary conditions allow grating problems¹ infinite physical domains to truncated without introducing any errors. This work presents exact absorbing boundary conditions for 3D diffraction gratings and describes their discretization within a high-order time-domain discontinuous Galerkin finite element method (TD-DG-FEM). The error introduced by the boundary condition discretization matches that of the TD-DG-FEM; this results in an optimal solver in terms of accuracy and computation time.  Numerical results demonstrate the superiority of this solver over TD-DG-FEM with perfectly matched layers (PML)-based domain truncation.

ISSN:

2013

Keywords

Accurate characterization of 3D diffraction gratings using time domain discontinuous Galerkin method with exact absorbing boundary conditions