Title :
Efficient mode analysis with edge elements and 3-D adaptive refinement
Author :
Golias, Nikolaos A. ; Papagiannakis, Antonis G. ; Tsiboukis, Theodoros D.
Author_Institution :
Dept. of Electr. Eng., Thessaloniki Univ., Greece
fDate :
1/1/1994 12:00:00 AM
Abstract :
Efficient mode analysis of 3-D inhomogeneously loaded cavity resonators of arbitrary shape by the finite edge element method is presented in this paper. Two weak formulations involving field vectors E and H are derived from a Galerkin weighted scheme resulting in a sparse symmetric generalized eigenvalue problem, the solution of which is obtained by a sparse eigenvalue technique. Edge elements with divergence free shape functions guarantee the continuity of the tangential components of the field variables E or H, but not of their normal components, across element interfaces in contrast with node based elements that impose full continuity. The discontinuity of the normal component of D or B, present in the numerical model, is proposed as an error estimator suitable for adaptive mesh refinement of 3-D tetrahedral meshes with edge elements. Application to a dielectrically loaded cavity is given with full documentation and by way of illustration
Keywords :
cavity resonators; eigenvalues and eigenfunctions; electromagnetic field theory; error analysis; mesh generation; 3D adaptive refinement; 3D inhomogeneously loaded cavity resonators; 3D tetrahedral meshes; Galerkin weighted scheme; adaptive mesh refinement; dielectrically loaded cavity; divergence free shape functions; edge elements; error estimator; field vectors; finite edge element method; mode analysis; numerical model; sparse symmetric generalized eigenvalue problem; Adaptive mesh refinement; Cavity resonators; Dielectrics; Documentation; Eigenvalues and eigenfunctions; Electromagnetic fields; Nonuniform electric fields; Numerical models; Partial differential equations; Shape;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
