Title :
Reflection of electromagnetic waves from a surface Co0.94Fe0.122+Fe1.963+ O4 and FeBO3 in UHF region
Author :
Buchelinikov, V.D. ; Kraftmakher, G.A. ; Romanov, V.S. ; Shavrov, V.G.
Author_Institution :
Chelyabinsk State Univ., Russia
Abstract :
Summary form only given. Experimental and theoretical dependencies of the electromagnetic waves reflection coefficient (R) from a single crystal surface of the conducting ferrite Co0.94Fe0.12 2+Fe1.963+O4 and the easy-plane antiferromagnet FeBO3 on a metal base have been investigated. From the experiment, the frequency dependencies of the reflection coefficient from a surface of Co0.94Fe0.12 2+Fe1.963+O4 ferrite in the 8-12 GHz range for different magnitudes of external constant magnetic fields there is a minimum in which magnitude of the reflection coefficient decreases to 3 dB (≈50%). The reflection coefficient from a surface FeBO3 in this UHF region is small (R≈-15 dB or 0.03) and has a minimum. The frequency of the minimum is strongly correlated with the magnitude of the magnetic field. Such dependencies of the reflection coefficient for these magnetic materials means that in the given frequency region a large increase of magnetic permeability in the area a ferromagnetic and quasi ferromagnetic resonance takes place. The theoretical investigation of the reflection coefficient for given substances based on a model of coupled electromagnetic, spin end elastic waves. To determining of spectrum of elementary vibration in considered magnetics was decided equations system which consist of Landau-Lifsitz equation, Maxwell equations and equations of elasticity theory together with the system of boundary conditions. The reflection coefficient was calculated by the formula R=|hR/h0|2,where hR, h0 denote the amplitudes of the reflected and dropped waves accordingly defined from the decision of the system boundary equations. Computation of the reflection coefficient on the model of coupled electromagnetic, spin end elastic waves was made numerically. It was shown that the theoretical dependencies of the reflection coefficient for Co0.94Fe0.122+Fe1.963+ O4 and FeBO3 are very close to the experimental results
Keywords :
Maxwell equations; antiferromagnetic materials; cobalt compounds; elastic waves; electromagnetic wave reflection; ferrites; ferromagnetic resonance; iron compounds; magnetic permeability; magnetoelastic waves; spin waves; Co0.94Fe0.12Fe1.96O4; EM wave reflection; FeBO3; Landau-Lifsitz equation; Maxwell equations; UHF region; antiferromagnet; boundary conditions; conducting ferrite; constant magnetic fields; coupled electromagnetic waves; elasticity theory; electromagnetic wave reflection; ferromagnetic resonance; magnetic permeability; quasi ferromagnetic resonance; reflection coefficient; single crystal surface; spin end elastic waves; Electromagnetic coupling; Electromagnetic reflection; Electromagnetic scattering; Ferrites; Frequency; Iron; Magnetic fields; Magnetic resonance; Maxwell equations; Surface waves;
Conference_Titel :
Applied Electromagnetism, 2000. Proceedings of the Second International Symposium of Trans Black Sea Region on
Conference_Location :
Xanthi
Print_ISBN :
0-7803-6428-7
DOI :
10.1109/AEM.2000.943241
