Title :
A perturbation procedure for nearly rectangular, homogeneously filled, cylindrical waveguides
Author :
Mccartin, Brian J.
Author_Institution :
GMI Eng. & Manage. Inst., Flint, MI, USA
fDate :
10/1/1996 12:00:00 AM
Abstract :
The cut-off frequencies and propagating modes of a hollow cylindrical waveguide may be approximated by conformal mapping to a canonical domain followed by the numerical solution of a Helmholtz-like equation. The author considers the problem of how these frequencies and modes change under a small perturbation of the bounding metallic walls. A procedure is herein presented that produces a perturbation expansion involving only computations in the unperturbed cross section, thus avoiding costly additional mappings. Moreover, the resulting analytical expressions for these frequencies and modes are then available for optimization of waveguide parameters. An application of this procedure is presented together with comparison to published numerical and experimental results
Keywords :
Helmholtz equations; circular waveguides; perturbation techniques; rectangular waveguides; waveguide theory; Helmholtz-like equation; bounding metallic walls; canonical domain; conformal mapping; cutoff frequencies; homogeneously filled cylindrical waveguides; nearly rectangular waveguides; perturbation procedure; propagating modes; Conformal mapping; Cutoff frequency; Engineering management; Equations; Geometry; Hollow waveguides; Permeability; Planar waveguides; Rectangular waveguides; Shape;
Journal_Title :
Microwave and Guided Wave Letters, IEEE
