DocumentCode
3188809
Title
A quasi-classical, linear kinetic theory for a ferrimagnetic medium-linear magnetization
Author
Schill, R.A., Jr. ; Tischer, J.M.
Author_Institution
Dept. of Electr. Eng. & Comput. Sci., Illinois Univ., Chicago, IL, USA
fYear
1992
fDate
18-25 June 1992
Firstpage
2267
Abstract
A self-consistent, quasi-classical, linear kinetic theory adopting a six-dimensional angular momentum/configuration phase space is used to develop the linear magnetization for a finite, anisotropic, magnetic medium biased with a large, uniform magnetostatic field. Only the classical dipole and quantum mechanical exchange interactions are incorporated into the theory. With suitable approximations, the equilibrium and linear magnetizations agree with existing theories. The ferrimagnetic medium is composed of two interpenetrating magnetic ion sublattices. Transverse wave oscillations result in the medium due to exchange interaction. With exchange interaction, Maxwell´s equations are of differential/integral form.<>
Keywords
exchange interactions (electron); ferrimagnetism; magnetisation; Maxwell´s equations; dipole exchange interactions; ferrimagnetic medium; finite anisotropic magnetic medium; linear kinetic theory; linear magnetization; magnetic ion sublattices; magnetostatic field; quantum mechanical exchange interactions; quasi-classical theory; self-consistent theory; six-dimensional angular momentum/configuration phase space; transverse wave oscillations; Anisotropic magnetoresistance; Elementary particle exchange interactions; Ferrimagnetic materials; Kinetic theory; Magnetic anisotropy; Magnetization; Magnetostatic waves; Maxwell equations; Perpendicular magnetic anisotropy; Quantum mechanics;
fLanguage
English
Publisher
ieee
Conference_Titel
Antennas and Propagation Society International Symposium, 1992. AP-S. 1992 Digest. Held in Conjuction with: URSI Radio Science Meeting and Nuclear EMP Meeting., IEEE
Conference_Location
Chicago, IL, USA
Print_ISBN
0-7803-0730-5
Type
conf
DOI
10.1109/APS.1992.221402
Filename
221402
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