论文信息 - Galerkin solution for the thin circular iris in a TE/sub 11/-mode circular waveguide

Galerkin solution for the thin circular iris in a TE/sub 11/-mode circular waveguide

An integral equation for the transverse electric (TE) field in the aperture of a concentric circular iris in a transverse plane of a circular waveguide is approximately solved using Galerkin's method. The aperture field is represented by a finite sum of normal TE and TM (transverse magnetic) circular waveguide modes that fit the circular aperture. The numerical convergence of the Galerkin solution is demonstrated using the resultant aperture field distributions and equivalent shunt susceptance for the case of dominant TE/sub 11/-mode excitation. The resultant aperture electric field distribution closely resembles that of the TE/sub 11/ aperture mode alone, except for edge contribution behavior at the edge of the iris. A resonant or capacitive iris is possible over a restricted range of frequencies. >

Arlon T. Adams | A. Adams | R. Scharstein | R. W. Scharstein

[1] L. S. Sheingold. THE SUSCEPTANCE OF A CIRCULAR OBSTACLE TO AN INCIDENT DOMINANT CIRCULAR- ELECTRIC WAVE , 1953 .

[2] A. A. Kirilenko,et al. Rigorous mathematical analysis and electrodynamic characteristics of a diaphragm in a circular waveguide , 1980 .

[3] R. Macphie,et al. Scattering at Rectangular-to-Rectangular Waveguide Junctions , 1982 .

[4] T. Sugiura,et al. The Susceptance of an Annular Metallic Strip in a Circular Waveguide with Incident TE/sub 01/ Mode , 1979 .

[5] Displacements of rectangular waveguides , 1982 .

[6] Roger F. Harrington,et al. A generalized network formulation for aperture problems , 1976 .

[7] Raj Mittra,et al. Analytical and Numerical Studies of the Relative Convergence Phenomenon Arising in the Solution of an Integral Equation by the Moment Method , 1972 .

[8] A. Wexler. Solution of Waveguide Discontinuities by Modal Analysis , 1967 .

[9] G. P. Sinyavsky,et al. Taking Into Account the Edge Condition in the Problem of Diffraction Waves on Step Discontinuity in Plate Waveguide , 1982 .

[10] J. D. Hunter,et al. The Displaced Rectangular Waveguide Junction and its Use As an Adjustable Reference Reflection , 1984 .

[11] R. F. Harrington,et al. A Moment Solution for Waveguide Junction Problems , 1983 .