Title :
A fast vector-potential method using tangentially continuous vector finite elements
Author :
Dyczij-Edlinger, Romanus ; Peng, Guanghua ; Lee, Jin-Fa
Author_Institution :
Ansoft Corp., Pittsburgh, PA, USA
fDate :
6/1/1998 12:00:00 AM
Abstract :
An efficient finite-element method for driven time-harmonic wave-propagation problems is proposed. The special properties of tangentially continuous vector finite elements (TVFEMs) are utilized to formulate an ungauged vector-potential scheme in terms of the field method plus one very sparse “gradient matrix” with two nonzero integer or pointer entries per row. The suggested formalism is intended for use with iterative solvers. It combines the simplicity and modest memory requirements of the field formulation with the superior numerical convergence of the ungauged vector-potential scheme
Keywords :
boundary-value problems; convergence of numerical methods; electromagnetic wave propagation; finite element analysis; iterative methods; sparse matrices; FEM; driven time-harmonic wave-propagation problems; fast vector-potential method; finite-element method; iterative solvers; numerical convergence; sparse gradient matrix; tangentially continuous vector finite elements; ungauged vector-potential scheme; Computational efficiency; Convergence of numerical methods; Electromagnetic analysis; Equations; Finite element methods; Iterative methods; Linear matrix inequalities; Numerical analysis; Shape; Sparse matrices;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
