Fabrication of nanodot array using ferro-antiferromagnetic transition in <i>L</i>1<sub>0</sub> FePtRh film

  • HASEGAWA Takashi
    Department of Materials Science and Engineering, Graduate School of Engineering and Resource Science, Akita University
  • KAWATO Hiroki
    Department of Materials Science and Engineering, Graduate School of Engineering and Resource Science, Akita University
  • YAMANE Haruki
    Akita Research Institute of Advanced Technology, Akita Prefectural R&D Center
  • ISHIO Shunji
    Department of Materials Science and Engineering, Graduate School of Engineering and Resource Science, Akita University

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Other Title
  • <i>L</i>1<sub>0</sub>型FePtRh規則合金薄膜における強磁性―反強磁性相変化とナノ構造体の作製
  • L1[0]型FePtRh規則合金薄膜における強磁性-反強磁性相変化とナノ構造体の作製
  • L1 0 ガタ FePtRh キソク ゴウキン ハクマク ニ オケル キョウジセイ ハン キョウジセイ ソウヘンカ ト ナノ コウゾウタイ ノ サクセイ
  • Fabrication of nanodot array using ferro-antiferromagnetic transition in L10 FePtRh film

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Abstract

Crystalline structure and magnetic properties of FePt1-xRhx films (6.12 nm thick)were studied, and a bit patterning process using magnetic phase transitions was investigated. [001]-Oriented L10(CuAu I type)ordered films with a face-centered tetragonal structure (fct; a=b>c)were prepared in the range of 0≤x≤0.40 after annealing at 973 K. A degree of long-range chemical order parameter was calculated to be S∼0.98 in all of the films. At room temperature, the films with 0≤x≤0.32 were in a ferromagnetic (FM)phase with a coercivity of several kilo-oersteds, and the films with 0.34≤x≤0.40 were in an antiferromagnetic (AF)phase. The uniaxial magnetocrystalline anisotropy energy of the films with FM phase was more than 107 erg/cm3. Using this material system, a new bit patterning process was proposed. Atomic diffusion was used for modifying the composition of the film. Only the magnetic phase of the area whose composition crossed the threshold of the FM-AF transition changed abruptly to the FM phase. A minimum dot size of 300 nm×300 nm was realized by this method. A multi-domain structure was observed by the magnetic force microscopy at room temperature, and the FM dots were saturated by a magnetic field of 5.5 kOe. These results suggest realizing the advantaged bit patterning process.

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