Growth-induced perpendicular anisotropy of grains in Co-Al-O nanogranular ferromagnetic films

Growth-induced perpendicular anisotropy of grains in Co-Al-O nanogranular ferromagnetic films

This paper reports on the results of the magnetostatic measurements for Co-Al-O nanogranular films over a wide range of concentrations of the ferromagnetic component x . It has been revealed that grains in the films are characterized by the growth-induced anisotropy with easy axes directed perpendic...

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Bibliographic Details
Published in:Physics of the solid state Vol. 53; no. 3; pp. 494 - 503
Main Authors: Timopheev, A. A., Ryabchenko, S. M., Kalita, V. M., Lozenko, A. F., Trotsenko, P. A., Stognei, O. V., Sitnikov, A. V.
Format: Journal Article
Language:English
Published: Dordrecht SP MAIK Nauka/Interperiodica 01-03-2011
Springer
Subjects:
Anisotropy
Ferromagnetism
Growth
Magnetic properties
Magnetism
Physics
Physics and Astronomy
Solid State Physics
Toy industry
Coercive Field
Percolation Threshold
Magnetization Reversal
Magnetic Anisotropy
Internal Field
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Summary:This paper reports on the results of the magnetostatic measurements for Co-Al-O nanogranular films over a wide range of concentrations of the ferromagnetic component x . It has been revealed that grains in the films are characterized by the growth-induced anisotropy with easy axes directed perpendicular to the film plane. The maximum field of the single-grain perpendicular anisotropy reaches ∼2.5 kOe for samples in the vicinity of the percolation threshold ( x ≈ 61 at % Co). It has been established that the characteristic features of the superparamagnetic behavior of an ensemble of oriented Stoner-Wohlfarth particles are retained for the sample with x ≈ 61 at % Co in the presence of the demagnetization field associated with the net magnetization of the film. The influence of the demagnetization field of the film on the shape of the magnetization reversal curves, the coercivity, and the blocking temperature has been investigated and simulated. The results of the simulation are consistent with the experimental data.
ISSN:1063-7834
1090-6460
DOI:10.1134/S1063783411030309