Exchange Bias of Antiferromagnetic/Ferromagnetic Bilayer with Cubic Anisotropy in Antiferromagnetic Layer(Condensed matter: electronic structure and electrical, magnetic, and optical properties)

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概要

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• Disordered γ-phase antiferromagnetic Mn alloys bring about an exchange bias when the antiferromagnetic spin exhibits the triple Q spin structure. Since a certain amount of cubic anisotropy is possibly realized in the disordered γ-phase antiferromagnetic alloys, model calculations to determine the exchange bias in an antiferromagnetic (AFM)/ferromagnetic (FM) bilayer have been performed for the antiferromagnetic layer with a cubic anisotropy. The present calculations reveal that the formation of the interfacial domain wall in the antiferromagnetic layer predominates the exchange bias and that the critical cubic anisotropy D_C is defined by the domain wall width. In the torque curves calculated, as a function of the cubic anisotropy energy, a symmetric magnetic anisotropy curve in the ferromagnetic layer is clearly observed when no exchange bias field can be obtained. When a strong exchange bias is observed, on the other hand, the sinusoidal shape of the torque curve of the ferromagnetic layer disappears, showing a close relationship with the appearance of the exchange bias. From the present theoretical results, it is verified that the cubic anisotropy in the disordered AFM γ-phase alloys is closely associated with the exchange bias characteristics as well as the shape of torque curves of the AFM/FM bilayer.

• 社団法人日本物理学会の論文
• 2007-02-15

著者

• SAKUMA Akimasa

  Department of Applied Physics, Graduate School of Engineering, Tohoku University

• Sakuma Akimasa

  Department Of Applied Physics Graduate School Of Engineering Tohoku University

• FUKAMICHI Kazuaki

  Institute for Materials Research,Tohoku University

• Fukamichi Kazuaki

  Institute Of Multidisciplinary Research For Advanced Materials Tohoku University

• Fukamichi Kazuaki

  Institute For Materials Research Tohoku University

• Mitsumata Chiharu

  Advanced Electronics Research Laboratory Hitachi Metals Ltd.

• Sakuma Akimasa

  Department Of Applied Physics Tohoku University

• Sakuma Akimasa

  Tohoku Univ. Sendai Jpn

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