Zhu Lei, Zhang Wenxun. SOLUTION OF ARBITRARY CROSS-SECTION WAVEGUIDE USING METHOD OF EIGEN-WEIGHTED BOUNDARY INTEGRAL EQUATION[J]. Journal of Electronics & Information Technology, 1990, 12(1): 74-79.
Citation:
Zhu Lei, Zhang Wenxun. SOLUTION OF ARBITRARY CROSS-SECTION WAVEGUIDE USING METHOD OF EIGEN-WEIGHTED BOUNDARY INTEGRAL EQUATION[J]. Journal of Electronics & Information Technology, 1990, 12(1): 74-79.
Zhu Lei, Zhang Wenxun. SOLUTION OF ARBITRARY CROSS-SECTION WAVEGUIDE USING METHOD OF EIGEN-WEIGHTED BOUNDARY INTEGRAL EQUATION[J]. Journal of Electronics & Information Technology, 1990, 12(1): 74-79.
Citation:
Zhu Lei, Zhang Wenxun. SOLUTION OF ARBITRARY CROSS-SECTION WAVEGUIDE USING METHOD OF EIGEN-WEIGHTED BOUNDARY INTEGRAL EQUATION[J]. Journal of Electronics & Information Technology, 1990, 12(1): 74-79.
Based on the second kind of Green s identity, a boundary integral equation for arbitrary cross-section waveguide is transformed to a system of linear homogeneous algebraic tquations by means of expansion of boundary bases and using the eigenfuncuons of a fictitious regular boundary as weighting functions, which corresponds to less algebraic equations than BEM and simpler coefficients than the modified BEM. The numerical results for some typical metallic waverguides are given by using the method of eigen-weighted bounlary integral equation, and they are exact enough with fast convergence.
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