Title :
Trefftz finite elements for electromagnetics
Author :
Shlepnev, Yuriy Olegovich
Author_Institution :
Innoveda Inc., Camarillo, CA, USA
fDate :
5/1/2002 12:00:00 AM
Abstract :
It is shown that the method of minimum autonomous blocks (MAB) of Nikol´skii and Nikol´skaia can be reformulated as the Trefftz finite-element method. Solutions of Maxwell´s equations in form of plane waves are used to represent fields inside a finite element. Their projections on a set of basis functions on the surface of the element are used to obtain a descriptor of the element in form of an admittance matrix. It is shown that a point-matching projection procedure gives the frequency-domain transmission-line-matrix formulation and Galerkin-type projection leads to the MAB formulation. Admittance matrix representation of the descriptors of the elements makes it possible to use a finite-element-type global matrix assembling procedure and a sparse matrix solver
Keywords :
Maxwell equations; boundary-value problems; electrical engineering computing; electromagnetic field theory; equivalent circuits; finite element analysis; frequency-domain analysis; impedance matrix; physics computing; sparse matrices; transmission line matrix methods; waveguide theory; Galerkin-type projection; Maxwell equations; Trefftz finite-element method; admittance matrix; basis functions; boundary value problems; brick elements; eigenmodes; equivalent circuits; frequency-domain transmission-line-matrix formulation; global matrix assembling; minimum autonomous blocks method; plane waves; point-matching projection; sparse matrix solver; virtual waveguides; Admittance; Diffraction; Electromagnetic scattering; Electromagnetic waveguides; Finite element methods; Matrix decomposition; Maxwell equations; Shape; Sparse matrices; Transmission line matrix methods;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
