Title :
Fluctuation effects on the magnetization dynamics below the Curie temperature of ferro- and ferrimagnets
Author :
Kötzler, J. ; Görlitz, D. ; Hartl, M. ; Marx, Chr.
Author_Institution :
Inst. fur Angewandte Physik, Hamburg, Germany
fDate :
3/1/1994 12:00:00 AM
Abstract :
Measurements of the linear dynamic susceptibility between 1 Hz and 20 GHz are reported for strongly uniaxial and weakly anisotropic cubic model magnets. Approaching Tc from below, the contributions of the homogeneous magnetization and the wall motion have been separated. The most significant effects of critical magnetization fluctuations occur in the wall mobility of uniaxial materials near the disordering temperature of the Bloch-walls, T*<Tc and in the stability region of linear walls, T*<T<Tc. Moderate effects appear in the oscillator-like dynamics of the homogeneous magnetization in the cubic ferromagnets due to the crossover from exchange- to dipolar-dominated fluctuations, whereas the fluctuationless micromagnetic model based on |M&oarr;|=Ms(T) and constant transverse relaxation parameter explains the Bloch-wall dynamics for T⩽0.9 Tc and H⩽0.4N Ms
Keywords :
barium compounds; europium compounds; exchange interactions (electron); ferrimagnetic properties of substances; ferromagnetic properties of substances; fluctuations; iron compounds; magnetic anisotropy; magnetic domain walls; magnetic relaxation; magnetic susceptibility; magnetisation; spin dynamics; 1 Hz to 20 GHz; BaO-Fe2O3; Bloch-walls; Curie temperature; EuS; constant transverse relaxation parameter; critical magnetization fluctuations; dipolar-dominated fluctuations; disordering temperature; exchange-dominated fluctuations; ferrimagnets; ferromagnets; fluctuationless micromagnetic model; homogeneous magnetization; linear dynamic susceptibility; linear walls; magnetization dynamics; oscillator-like dynamics; stability region; strongly uniaxial cubic model; wall mobility; wall motion; weakly anisotropic cubic model; Anisotropic magnetoresistance; Equations; Fluctuations; Magnetic anisotropy; Magnetic susceptibility; Magnetization; Magnets; Micromagnetics; Perpendicular magnetic anisotropy; Temperature;
Journal_Title :
Magnetics, IEEE Transactions on
