Title :
Electromagnetic properties of nickel-zinc and manganese-zinc ferrite doped opal matrices in millimeter waveband
Author :
Rinkevich, A.B. ; Ustinov, V.V. ; Samoylovich, M.I. ; Klesheva, S.M. ; Kuznetsov, E.A.
Author_Institution :
Russian Acad. of Sci., Ekaterinburg
Abstract :
Microwave properties of magnetic photonic crystals, namely, silica opal matrices doped with nickel- zinc or manganese-zinc iron spinels have been investigated in the frequency range from 26 to 38 GHz. The experiments were carried out using two methods: (1) the measurements of microwave absorption in a cavity resonator and (2) electromagnetic wave penetration through a sample placed into a waveguide. It has been found that these magnetic nanocomposites show resonance-type dependence of the transmission coefficient versus magnetic field. Magnetic resonance spectra have been studied. The resonance variations in the nickel-zinc ferrite-doped nanocomposite are up to 70% that enables to use that material in magnetic field driven microwave devices.
Keywords :
cavity resonators; electromagnetic wave absorption; electromagnetic wave transmission; ferrites; magnetic materials; magnetic microwave devices; magnetic millimetre wave devices; magnetic resonance; manganese compounds; microwave materials; microwave photonics; nanocomposites; nickel compounds; photonic crystals; silicon compounds; zinc compounds; SiO2:MnZnFe2O4; SiO2:NiZnFe2O4; cavity resonator; electromagnetic wave penetration; magnetic field driven microwave devices; magnetic nanocomposites; magnetic photonic crystals; magnetic resonance spectra; manganese-zinc ferrite doped opal matrices; microwave absorption measurement; millimeter waveband material; nickel-zinc doped opal matrices; transmission coefficient; waveguide; Electromagnetic scattering; Electromagnetic waveguides; Ferrites; Magnetic field measurement; Magnetic materials; Magnetic resonance; Millimeter wave measurements; Millimeter wave technology; Nanocomposites; Transmission line matrix methods; Microwave measurements; magnetic resonance; microphotonic materials;
Conference_Titel :
Microwave Conference, 2007. European
Conference_Location :
Munich
Print_ISBN :
978-2-87487-001-9
DOI :
10.1109/EUMC.2007.4405112
