Title :
Below-Cutoff Propagation in Metamaterial-Lined Circular Waveguides
Author :
Pollock, Justin G. ; Iyer, Ashwin K.
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Alberta, Edmonton, AB, Canada
Abstract :
This paper investigates the propagation characteristics of circular waveguides whose interior surface is coated with a thin metamaterial liner possessing dispersive, negative, and near-zero permittivity. A field analysis of this system produces the dispersion of complex modes, and reveals in detail intriguing phenomena such as backward-wave propagation below the unlined waveguide´s fundamental-mode cutoff, resonant tunneling of power, field collimation, and miniaturization. It is shown how the waveguide geometry and metamaterial parameters may be selected to engineer the lined waveguide´s spectral response. Theoretical dispersion and transmission results are closely validated by full-wave simulations.
Keywords :
circular waveguides; dispersion (wave); metamaterials; resonant tunnelling; backward-wave propagation; below-cutoff propagation; complex dispersion mode; field collimation; full-wave simulation; interior surface coating; lined waveguide spectral response; metamaterial-lined circular waveguide; near-zero permittivity; negative permittivity; power collimation; resonant tunneling; thin metamaterial liner possessing dispersive; unlined waveguide fundamental-mode cutoff; waveguide geometry; Cutoff frequency; Dispersion; Magnetic resonance imaging; Metamaterials; Nonhomogeneous media; Permittivity; Waveguide theory; Backward wave; below-cutoff propagation; circular waveguides; epsilon-near-zero (ENZ); inhomogeneous waveguides; metamaterials; miniaturization; negative permittivity;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2013.2274780
