Three-dimensional finite element eddy current analysis by using high-order vector elements

There are two major difficulties in applying the finite element method to the analysis of microwave devices in three dimensions. One is to obtain a stable vector finite element which does not generate spurious modes, or non-physical solutions, in the numerical analysis. The other is to model efficie

A computer program has been written for the analysis and design of arbitrarily shaped waveguides, containing dielectric and magnetic materials. The program calculates the propagating modes of the waveguide by the three-component vector finite element method. High accuracy is achieved by the use of h

A new multigrid method based on high-order vector finite elements is proposed in this paper. Low-level discretizations in this method are obtained by using low-order vector finite elements for the same mesh. The Gauss-Seidel method is used as a smoother, and a linear equation of lowest level is solv

## Abstract The finite element method is formulated in such a way that the electromagnetic solution of an excited cavity formed from an N‐port waveguides junction leads directly and naturally to circuit characteristics of this junction. The use of edge‐elements eliminates nonphysical solutions. The

An efficient renumbering method for high-order finite element models is presented. The method can be used to reduce the profile and wavefront of a coefficient matrix arising in high-order finite element computation. The method indirectly performs node renumbering and involves three main steps. In th