Direct observation of magnetization reversal processes in micron-sized elements of spin-valve material

Simple calculations suggest that when continuous films of spin-valve material are patterned into micron-sized elements the magnetic properties should change markedly, depending on the element shape and size. We have used the differential phase contrast imaging mode of transmission electron microscop...

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Bibliographic Details
Published in:Journal of applied physics 1998-05, Vol.83 (10), p.5321-5325
Main Authors: Chapman, J. N., Aitchison, P. R., Kirk, K. J., McVitie, S., Kools, J. C. S., Gillies, M. F.
Format: Article
Language:English
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Summary:Simple calculations suggest that when continuous films of spin-valve material are patterned into micron-sized elements the magnetic properties should change markedly, depending on the element shape and size. We have used the differential phase contrast imaging mode of transmission electron microscopy to study directly the magnetization distributions supported by such elements in zero field and when subjected to an applied field in the pinning direction. For elements whose long axis is parallel to the pinning direction a parallel alignment of the free and pinned layers is favored. When subjected to a field a complex domain structure evolves and different irreversible paths are followed as the element is taken from negative to positive saturation and back again. By contrast, when the pinning direction is parallel to the short axis an antiparallel arrangement, where the magnetostatic contribution to the energy is effectively suppressed, can be preferred and simpler reversal mechanisms, with a higher degree of reversibility, are frequently seen.
ISSN:0021-8979
1089-7550
DOI:10.1063/1.367358