Journal of Magnetics

The Korean Magnetics Society (한국자기학회)
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Bistable Domain Wall Configuration in a Nanoscale Magnetic Disc: A Model for an Inhomogeneous Ferromagnetic Film

  • Venus D. (Dept. of Physics and Astronomy, McMaster University)
  • Published : 2005.09.01
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Abstract

Some polycrystalline ferromagnetic mms are composed of continuously connected nanometer scale islands with random crystallite orientations. The nanometer perturbations of the mm introduce a large number of nearly degenerate local field configurations that are indistiguishable on a macroscopic scale. As a first step, this situation is modelled as a thin ferromagnetic disc coupled by exchange and dipole interactions to a homogeneous ferromagnetic plane, where the disc and plane have different easy axes. The model is solved to find the partial $N\acute{e}el$ domain walls that minimize the magnetic energy. The two solutions give a bistable configuration that, for appropriate geometries, provides an important microsopic ferromagnetic degree of freedom for the mm. These results are used to interpret recent measurements of exchange biased bilayer films.

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