Title :
Electromagnetic Waves Reflectance of Graphene—Magnetic Semiconductor Superlattice in Magnetic Field
Author :
Kuzmin, D.A. ; Bychkov, I.V. ; Shavrov, V.G.
Author_Institution :
Chelyabinsk State Univ., Chelyabinsk, Russia
Abstract :
Electrodynamic properties of the graphene-magnetic semiconductor-graphene superlattice placed in magnetic field have been investigated theoretically in Faraday geometry, while taking into account dissipation processes. Frequency and field dependences of the reflectance, transmittance, and absorbtance of electromagnetic waves by such superlattice have been calculated for different numbers of periods of the structure and different sizes of the periods with using a transfer matrix method. The possibility of efficient control of electrodynamic properties of graphene-magnetic semiconductor-graphene superlattice has been shown.
Keywords :
Faraday effect; electrodynamics; electromagnetic wave reflection; graphene; magnetic semiconductors; semiconductor-insulator boundaries; superlattices; C-C; Faraday geometry; electrodynamic properties; electromagnetic waves reflectance; graphene-magnetic semiconductor-graphene superlattice; transfer matrix method; transmittance; Electromagnetic scattering; Graphene; Magnetic resonance; Magnetic semiconductors; Magnetic superlattices; Periodic structures; Composite materials; electromagnetic propagation in absorbing media; electromagnetic reflection; electromagnetic wave absorption; magnetic semiconductors; periodic structures; semiconductor superlattices; superlattices;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2014.2323332
