High mobility of surface atoms and induced anisotropy in very thin permalloy films

H. Katada, T. Shimatsu, H. Watanabe, I. Watanabe, H. Muraoka, Y. Nakamura, Y. Sugita

Research output: Contribution to journalConference article

3 Citations (Scopus)

Abstract

The induced uniaxial anisotropy field Hk in very thin Ni79Fe21 films, sandwiched by seed and protective Ta layers, was investigated. Films prepared by an ultra-high vacuum sputtering process show a very sharp fiber texture of fcc-〈111〉 perpendicular to the film plane, even with a thin film of 3 nm. The Hk value was found to decrease as the film thickness decreased below 20 nm, even after an annealing procedure in a magnetic field. The change in the induced anisotropy energy Ku was measured as a function of the temperature while applying a dc magnetic field parallel to the hard axis of magnetization. The value of Ku of as-deposited thin films decreases significantly with increasing temperature from 50 °C to 100 °C and the Ku reduction in a film of 5 nm reaches ∼ 40%. It is likely that this Ku reduction is mainly caused by realignment of atom pairs at film surfaces along the field direction. This is supported by the low activation energy of the Ku reduction process. It is successfully shown that the high mobility of surface atoms should disrupt the alignment of atom-pairs parallel to the field direction during the film deposition and annealing process, resulting in the formation of magnetically isotropic layers at surfaces. The thickness of this isotropic layer was estimated to be ∼ 0.8 nm and the isotropic surface-layer is likely to reduce the Hk value of very thin films.

Original languageEnglish
Pages (from-to)2664-2666
Number of pages3
JournalIEEE Transactions on Magnetics
Volume38
Issue number5 I
DOIs
Publication statusPublished - 2002 Sep 1
Event2002 International Magnetics Conference (Intermag 2002) - Amsterdam, Netherlands
Duration: 2002 Apr 282002 May 2

Keywords

  • Alignment of atom pairs
  • Anisotropy field
  • Induced uniaxial anisotropy
  • Mobility of surface atoms
  • Thin permalloy film

ASJC Scopus subject areas

  • Electronic, Optical and Magnetic Materials
  • Electrical and Electronic Engineering

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