Title :
Fundamental wave phenomena on biased-ferrite planar slab waveguides in connection with singularity theory
Author :
Yakovlev, Alexander B. ; Hanson, George W.
Author_Institution :
Dept. of Electr. Eng., Univ. of Mississippi, University, MS, USA
Abstract :
In this paper, characteristic dispersion phenomena and interactions of the discrete surface- and leaky-wave modes supported by a grounded biased-ferrite slab waveguide are analyzed using singularity and critical-point theory. Surface- and space-wave leaky modes are studied for different orientations of the applied magnetic bias field. As the bias field is rotated away from a coordinate axis, the modes become hybrid, and mode coupling or modal degeneracies may occur. Mode coupling, in general, is governed by a Morse critical point (MCP), and the behavior of the MCP is found to be useful in explaining and predicting modal behavior on this complicated waveguiding structure. In addition, leaky-wave dispersion behavior and leaky-wave cutoff associated with a fold singular point is studied by varying the orientation of the applied magnetic bias field.
Keywords :
coupled mode analysis; current density; ferrite waveguides; magnetic microwave devices; planar waveguides; waveguide theory; Morse point; applied magnetic bias field; biased-ferrite planar slab waveguides; characteristic dispersion phenomena; critical-point theory; discrete surface-wave modes; equivalent volume current density; fold singular point; fundamental wave phenomena; grounded slab waveguide; hybrid modes; integral equation; leaky-wave cutoff; leaky-wave modes; microwave ferrite technology; modal degeneracies; mode coupling; singularity theory; space-wave modes; two-dimensional planar waveguide; Electromagnetic waveguides; Ferrites; Magnetic analysis; Magnetic materials; Magnetic separation; Magnetostatic waves; Planar waveguides; Slabs; Surface waves; Waveguide theory;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2002.807809
