Magnetic remanent states and quasistatic switching behavior of Fe split-rings for spin field-effect-transistor applications

Lee, J. H.; Holmes, S. N.; Hong, B.; Roy, P. E.; Mascaro, M. D.; Hayward, T. J.; Anderson, D.; Cooper, K.; Jones, G. A. C.; Vickers, M. E.; Ross, C. A.; Barnes, C. H. W.

Author(s)

Lee, J. H.; Holmes, S. N.; Hong, B.; Roy, P. E.; Mascaro, Mark D.; ... Show more

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Abstract

The magnetic remanent states and switching behavior of Fe thin-film split-rings are investigated using magnetic force microscopy, magnetoresistance measurements, and micromagnetic simulations in order to assess their suitability as spin-filter contacts for spin field-effect-transistors. The gaps between the two halves of each ring are found to absorb then emit domain walls and act as pinning sites for “virtual” domain walls so that the observed switching mechanisms are similar to those of continuous rings. It is shown that these rings offer advantages over rectangular spin-filter contacts owing to their reduced stray fields and easy accessibility of the necessary magnetic states.

Date issued

2009-10

URI

http://hdl.handle.net/1721.1/79739

Department

Massachusetts Institute of Technology. Department of Materials Science and Engineering

Journal

Applied Physics Letters

Publisher

American Institute of Physics (AIP)

Citation

Lee, J. H., S. N. Holmes, B. Hong, P. E. Roy, M. D. Mascaro, T. J. Hayward, D. Anderson, et al. “Magnetic remanent states and quasistatic switching behavior of Fe split-rings for spin field-effect-transistor applications.” Applied Physics Letters 95, no. 17 (2009): 172505. © 2009 American Institute of Physics

Version: Final published version

ISSN

00036951

1077-3118

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