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3-D edge element analysis of dielectric loaded resonant cavities

✍ Scribed by Zhou Le Zhu; J. B. Davies; F. A. Fernandez

Publisher
John Wiley and Sons
Year
1994
Tongue
English
Weight
524 KB
Volume
7
Category
Article
ISSN
0894-3370

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✦ Synopsis

The eigenmodes in electromagnetic cavities, loaded with arbitrarily shaped dielectric materials, are computed by the edge element method. The computation shows that the well known 'spurious modes' no longer appear. Formulae are given and verified so that the number of zero eigenvalues, which come from V X H = 0, may be accurately predicted. Formulae for the order and density of the global matrices are given for a rectangular cavity regularly divided into bricks and tetrahedra, allowing an associated comparison between the contrasting edge and nodal element formulations. Comparison of the computed results with available theoretical and previously published data show the edge element approach to be a robust, accurate and effective method.

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✍ Jesús García; Jesús Rubio; Jose Ramón Montejo-Garai; Juan Zapata 📂 Article 📅 2001 🏛 John Wiley and Sons 🌐 English ⚖ 176 KB

## Abstract A procedure for dielectric‐loaded filter design on a step‐by‐step basis is presented. A full‐wave 3‐D finite‐element segmentation method is used. The structure is segmented into blocks whose generalized scattering matrix is computed, using analytical solutions when possible. The filter