Magnetic anisotropy of single-domain particles |
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Authors: | V. I. Petinov |
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Affiliation: | 1. Institute of Problems of Chemical Physics, Russian Academy of Sciences, pr. Akademika Semenova 1, Chernogolovka, Moscow oblast, 142432, Russia
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Abstract: | The competition between uniaxial and cubic magnetic anisotropies of single-domain particles is analyzed theoretically. As long as K 1c /K 1u < 5 (K 1c and K 1u are the first constants of the crystallographic and uniaxial anisotropies), the value of K 1u noticeably affects coercive force H c and relative residual magnetization j r of particle ensembles. If the uniaxial anisotropy direction coincides with crystallographic axis 〈111〉 or 〈100〉, the dependences of H c and j r on ratio K 1c /K 1u have a minimum. The competition between the induced uniaxial anisotropy and cubic anisotropy was detected experimentally when the effect of temperature T on the H c (T) and j r (T) dependences for single-domain spherical particles of magnetic 3d alloys and γ-Fe2O3 oxide was investigated. For all single-domain particles studied here, the effect of crystallographic anisotropy on H c and j r is manifested at low temperatures, while uniaxial anisotropy plays a decisive role in the temperature range T > 250 K. The effect of second constant K 2 on H c and j r of ensembles of single-domain particles with uniaxial and cubic anisotropies is investigated theoretically. It is shown that the value of K 2 may substantially change the value of H c for a particle ensemble, preserving the value of j r unchanged. |
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