Title :
Wide bandwidth pyramidal absorbers of granular ferrite and carbonyl iron powders
Author :
Park, Myung-Jun ; Choi, Jaeho ; Kim, Sung-Soo
Author_Institution :
Chungbuk Nat. Univ., Seoul, South Korea
fDate :
9/1/2000 12:00:00 AM
Abstract :
Pyramidal absorbers with wide bandwidth in the GHz region are designed with magnetic materials of broad loss spectrum for application to small or semi-anechoic chambers. Microwave absorbing properties of pyramidal cone absorbers are analyzed by the transmission line approximation which provides the reflection loss as a function of material parameters and absorber height. It has been found that the magnetic loss spectrum is the most critical parameter to realize wide bandwidth. For the attainment of a broad loss spectrum, two kinds of magnetic fillers are used in appropriate proportions in silicon rubber binder. One is Ni-Zn ferrite with magnetic resonance at low frequency and the other is carbonyl iron with high-frequency relaxation loss. With a controlled geometry of pyramidal cone in those composites, a very wide bandwidth (1-18 GHz with respect to -20 dB reflection loss) has been predicted
Keywords :
electromagnetic wave absorption; ferrites; ferromagnetic materials; granular materials; iron compounds; magnetic microwave devices; magnetic particles; nickel compounds; zinc compounds; -20 dB; 1 to 18 GHz; Ni-Zn ferrite; NiZnFe2O4; broad loss spectrum; carbonyl iron; carbonyl iron powders; granular ferrite; high-frequency relaxation loss; magnetic fillers; magnetic loss spectrum; magnetic resonance; microwave absorbing properties; reflection loss; semi-anechoic chambers; silicon rubber binder; transmission line approximation; wide bandwidth; wide bandwidth pyramidal absorbers; Bandwidth; Ferrites; Magnetic analysis; Magnetic losses; Magnetic materials; Magnetic resonance; Propagation losses; Reflection; Silicon; Transmission lines;
Journal_Title :
Magnetics, IEEE Transactions on
