Title :
Magnetic and Dielectric Excitations in the W-Band in Aluminum Substituted Barium and Strontium Hexaferrites
Author :
Popov, Maksym A. ; Zavislyak, Igor V. ; Tatarenko, Alexander S. ; Srinivasan, Gopalan ; Balbashov, A.M.
Author_Institution :
Phys. Dept., Oakland Univ., Rochester, MI
fDate :
5/1/2009 12:00:00 AM
Abstract :
Single crystal strontium and barium hexaferrites in which Al is substituted for Fe have uniaxial anisotropy fields on the order of 20-30 kOe and have magnetic excitations at 75-110 GHz. Here, we discuss results of investigations on magnetostatic forward volume waves and dielectric resonances in such ferrites. Data on the mode frequencies were utilized to characterize the ferrites in terms of saturation magnetization, anisotropy field, gyromagnetic ratio, dielectric permittivity, and dielectric and magnetic losses. A refined theory of magnetostatic forward volume waves with explicit characteristic equation for the dominant mode is presented. The estimates on the mode characteristics are in very good agreement with the data.
Keywords :
aluminium compounds; barium compounds; dielectric losses; dielectric resonance; eddy current losses; ferromagnetic materials; ferromagnetic resonance; gyromagnetic ratio; magnetic anisotropy; magnetic leakage; permittivity; strontium compounds; BaAlxFe12-xO19; SrAlxFe12-xO19; W-band; aluminum substituted barium hexaferrites; dielectric losses; dielectric permittivity; dielectric resonances; ferromagnetic resonance; frequency 75 GHz to 110 GHz; gyromagnetic ratio; magnetic anisotropy field; magnetic excitations; magnetic losses; magnetostatic forward volume waves; saturation magnetization; single crystal strontium hexaferrites; uniaxial anisotropy; Dielectric resonators; ferrites; magnetic resonance; millimeter wave measurements;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2008.2008414
