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Effective uniaxial anisotropy in easy-plane materials through nanostructuring

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arxiv 1711.03144 v1 pith:5G7I6XP7 submitted 2017-11-08 cond-mat.mtrl-sci

Effective uniaxial anisotropy in easy-plane materials through nanostructuring

classification cond-mat.mtrl-sci
keywords anisotropymaterialseasy-planeuniaxialeffectivefieldnanostructuringsize
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Permanent magnet materials require a high uniaxial magneto-crystalline anisotropy. Exchange coupling between small crystallites with easy-plane anisotropy induces an effective uniaxial anisotropy if arranged accordingly. Nanostructuring of materials with easy-plane anisotropy is an alternative way to create hard-magnetic materials. The coercivity increases with decreasing feature size. The resulting coercive field is about 12 percent of the anisotropy field for a crystal size of 3.4 times the Bloch parameter.

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