Three-dimensional eddy current analysis by multi-order vector finite elements

## Abstract There are two methods of using the magnetic vector potential for three‐dimensional eddy current calculations. The first method uses the continuous magnetic vector potential which accompanies a scalar potential and has the advantage that no cutting is necessary for the multiply connected

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 A fast, higher order three‐dimensional finite‐element method is presented for the efficient and accurate analysis of microwave waveguide devices. Two solution algorithms are designed. The first one uses mixed‐order triangular prism elements in conjunction with a special frontal solver.

In electromagnetic field analysis, a systematic method of construction is presented for higher-order vector elements without respect to order. From the Helmholtz theorem, the vector basis functions are chosen. From the similarity with the scalar elements, the shape functions are determined by assign

An approach based on the finite element method (FEM) with the rectangular-parallelepipd edge element is proposed for the analysis of electromagnetic waveguide bends. Here, to be permissible for analysis of various electromagnetic waveguides, the analytical relations in the uniform waveguide are cons