|
Journal of Microwave Power
and Electromagnetic Energy (JMPEE) |
|
|
TITLE |
FDTD Analysis of Dielectric-Loaded Longitudinally
Slotted Rectangular Waveguides [PDF] |
|
AUTHORS |
H. M. Al-Rizzo, H. Y. Zedan, K. G. Clark and J.M. Tranquilla 2003 38 3 171-188 |
|
|
|
|
YEAR |
|
|
VOLUME |
|
|
ISSUE |
|
|
PAGES |
|
|
Abstract A versatile electromagnetic
(EM) computational algorithm, based on the Finite-Difference Time-Domain
(FDTD) technique, is developed to analyze longitudinally oriented,
square-ended, single slot fixtures and slot-pair configurations cut in the
broad wall of a WR-975 guide operating at a frequency of 915 MHz. The finite
conductivity of the waveguide walls is accounted for by employing a
time-domain Surface-Impedance Boundary Conditions (SIBC) formulation. The
proposed FDTD algorithm has been validated against measurements performed by
the authors on a probe-excited slot cut along the centerline of the broad
wall of a WR-284 guide and available experimental data for energy coupled
from a longitudinal slot pair in the broad wall of a WR-340 guide. Numerical
results are presented to exploit the influence of the constitutive parameters
of the processed material as well as protective insulating window slabs
mounted on the exterior surface of the slots. Particular attention is given
to the resonant length, scattering parameters, and the electric field
distribution within lossy objects placed in the near-field region over a
range of slot offsets and workloads with extensive results being reported for
the first time. It is shown that the FDTD technique can accurately predict
the coupling and power absorption characteristics in loads located in the
near field zone of the slotted waveguide structures and, therefore, should
prove to be a powerful design tool applicable to a wide class of slotted
waveguide applicators that may be difficult to analyze using other available
techniques. |
|