https://doi.org/10.1051/epjap/2010006
Electromagnetic wave diffraction by array of complex-shaped metal elements placed on ferromagnetic substrate
1
Head of Theoretical Radio Physics Department, Institute of Radio Astronomy of National Academy of
Sciences of Ukraine, 4 Chervonopraporna St., Kharkiv, 61002, Ukraine
2
Federal University of Para, P.O. Box 8619, Agencia UFPA, CEP 66075-900 Belem, PA, Brazil
Corresponding author: victor@ufpa.br
Received:
8
April
2009
Accepted:
8
December
2009
Published online:
3
February
2010
Full wave numerical study of electromagnetic wave reflection from and transmission through an array of thin, perfect conducting, planar strip complex-shaped elements placed on a magnetized ferrite substrate is carried out. Our results show, that the absorption level and the frequency band of the structure, when the ferromagnetic resonance and a metal element resonance are close in frequency, are larger than the corresponding characteristics of the ferrite layer without metal elements. A significant enhancement of the Faraday rotation has frequency shift with respect to the main resonance. Both right-handed and left-handed circular polarized incident waves interact effectively with a metal array placed on ferrite substrate unlike the known resonant interaction when only one kind (right- or left-handed) of circular polarized waves interacts with the ferrite slab without metal elements.
PACS: 42.25.Fx – Diffraction and scattering / 78.20.Ls – Magnetooptical effects / 41 – Electromagnetism; electron and ion optics / 42 – Optics
© EDP Sciences, 2010
