Title :
High-impedance surfaces having stable resonance with respect to polarization and incidence angle
Author :
Simovski, Constantin R. ; De Maagt, Peter ; Melchakova, Irina V.
Author_Institution :
Radio Lab./SMARAD, Helsinki Univ. of Technol., Finland
fDate :
3/1/2005 12:00:00 AM
Abstract :
The work presented in this paper concerns a theoretical study on frequency selective surfaces (FSS) with application to artificial magnetic conductors or high-impedance surfaces (HIS). Current realizations of HIS are based on a planar FSS at the interface of a metal-backed dielectric slab either including vertical vias or not. A stable resonance was found for the case of series-resonance grids without vias in the slab. The resonance turns out to be unique in theory for all angles of incidence and both polarizations of plane waves illuminating the HIS. It was shown that vias destroy the stabilization effect and introduce a frequency shift. The analytical model was validated by HFSS simulations.
Keywords :
dielectric bodies; dielectric resonance; electric impedance; electromagnetic wave polarisation; frequency selective surfaces; microstrip antennas; FSS; artificial magnetic conductor; frequency selective surfaces; high-impedance surfaces; incidence angle; metal-backed dielectric slab; polarization; printed circuit antennas; self-resonant grid; stable resonance; transmission line model; Analytical models; Conductors; Dielectric substrates; Frequency selective surfaces; Magnetic resonance; Optical surface waves; Polarization; Slabs; Space technology; Surface impedance; Artificial magnetic conductor; frequency-selective surface (FSS); high-impedance surface; self-resonant grid; transmission line model;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
DOI :
10.1109/TAP.2004.842598
