Nanoscale magnetization inhomogeneity within single phase nanopillars
- 1 August 2019
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Materials
- Vol. 3 (8), 081401
- https://doi.org/10.1103/physrevmaterials.3.081401
Abstract
We report observation of a radial dependence in the magnetic anisotropy of epitaxially strained nanopillars in a matrix. This archetypal example of a multiferroic heterostructure with a self-assembling three-dimensional architecture possesses significant out-of-plane uniaxial magnetic anisotropy. The anisotropy originates from the large magnetostriction of and the state of stress within the nanocomposite. Magnetometry suggests the existence of two magnetic phases with different anisotropies. Micromagnetic simulations of a core-shell magnetic anisotropy qualitatively reproduce features of the magnetic hysteresis and elucidate the magnetization reversal mechanism: The magnetization initially reorients within the pillar core, followed by that of the shell. This is consistent with polarized small-angle neutron scattering which can be described by a magnetization that is nonuniform on nanometer length scales. As the length scale of inhomogeneity of the magnetic anisotropy is similar to estimates of the relaxation of the displacement field from the interface, stress and its influence on structure provide an important route to new functionality of vertically aligned nanopillars for applications in low-power memory, computing, and sensing.
Keywords
Funding Information
- U.S. Department of Energy (DE-AC05-00OR22725)
- Oak Ridge National Laboratory
- National Science Foundation (DMR-1508249, DMR-0520547)
- Los Alamos National Laboratory
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