Title :
Construction principles of multigrid smoothers for Curl-Curl equations
Author :
Clemens, Markus ; Feigh, Stefan ; Weiland, Thomas
Author_Institution :
Helmut-Schmidt-Univ., Hamburg, Germany
fDate :
5/1/2005 12:00:00 AM
Abstract :
The construction principle for multigrid smoothers for discrete Curl-Curl equations consists in the inclusion of an additional zero divergence constraint. This principle is shown to hold for established schemes such as Hiptmair´s hybrid smoother and it is used to construct a new smoother starting from a mixed formulation using a Lagrange multiplier formulation, where a zero divergence constraint leads to a grad-div augmented system. The convergence properties of this system are compared to the nonaugmented system and to the hybrid scheme using Gauss-Seidel iterations for different curl-curl systems arising from various electrodynamical problems.
Keywords :
computational electromagnetics; convergence of numerical methods; electromagnetic fields; finite element analysis; Gauss-Seidel iterations; Hiptmair hybrid smoother; Lagrange multiplier formulation; curl-curl equations; electrodynamical problems; finite integration technique; grad-div augmented system; linear algebra; multigrid smoothers; nonaugmented system; numerical methods convergence; zero divergence constraint; Conducting materials; Constraint theory; Convergence; Gaussian processes; Integral equations; Lagrangian functions; Magnetic domains; Magnetic flux; Magnetic materials; Smoothing methods; Algorithms; convergence of numerical methods; finite integration technique (FIT); gauging; linear algebra;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2005.846086
