Title :
Magnonic Bandgaps in Metalized 1-D YIG Magnonic Crystals
Author :
Mruczkiewicz, Maciej ; Pavlov, Evgeny S. ; Vysotskii, Sergey L. ; Krawczyk, Michal ; Filimonov, Yuri A. ; Nikitov, S.A.
Author_Institution :
Fac. of Phys., Adam Mickiewicz Univ. in Poznan, Poznan, Poland
Abstract :
We investigate theoretically and experimentally magnonic bandgaps in a 1-D magnonic crystal consisting of a yttrium iron garnet film with periodically modulated thickness in contact with a metal. The theoretical model is based on the frequency-domain finite element method. The presented measurements of the transmitted spin-wave signal were performed with a vector network analyzer with coplanar and microstripe waveguide antennas for a magnonic crystal with and without metallic overlayer, respectively. The obtained results confirm that the presence of a metallic layer on top of the magnonic crystal shifts up the frequency of magnonic bandgaps.
Keywords :
finite element analysis; frequency-domain analysis; garnets; magnetic thin films; magnons; spin waves; yttrium compounds; Y3IG; coplanar waveguide antennas; frequency-domain finite element method; magnonic bandgaps; metalized 1D YIG magnonic crystals; metallic overlayer; microstripe waveguide antennas; periodically modulated thickness; theoretical model; transmitted spin-wave signal; vector network analyzer; yttrium iron garnet film; Crystals; Dispersion; Magnetic resonance; Magnetostatic waves; Magnetostatics; Photonic band gap; Surface waves; Magnonic crystals; nonreciprocity; spin waves (SWs);
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2014.2321329
