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4 September 2008 Single domain to vortex state transition in multilayered cobalt/copper nanowires
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Proceedings Volume 7036, Spintronics; 703610 (2008) https://doi.org/10.1117/12.797405
Event: NanoScience + Engineering, 2008, San Diego, California, United States
Abstract
Multilayered magnetic nanowires provide ideal platforms for nanomagnetism and spin-transport studies. They exhibit complex magnetization reversal behaviors as dimensions of the magnetic components are varied, which are difficult to probe since the magnetic entities are buried inside the nanowires. We have captured magnetic and magnetoresistance "fingerprints" of Co nanodiscs in Co/Cu multilayered nanowires as they undergo a single domain to vortex state transition, using a first-order reversal curve (FORC) method. The Co/Cu multilayered nanowires have been synthesized by pulsed electrodeposition into nanoporous polycarbonate membranes. In 50 nm diameter nanowires of [Co(5nm)/Cu(8nm)]400, a 10% magnetoresistance effect is observed at 300 K. In 200 nm diameter nanowires, the magnetic configurations can be tuned by adjusting the Co nanodisc aspect ratio. The thinnest nanodiscs exhibit single domain behavior. The thicker ones exhibit vortex states, where the nucleation and annihilation of the vortices are manifested as butterfly-like features in the FORC distributions. The magnetoresistance effect shows different characteristics, which correspond to the different magnetic configurations of the Co nanodiscs.
© (2008) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Jared Wong, Peter Greene, Randy K. Dumas, and Kai Liu "Single domain to vortex state transition in multilayered cobalt/copper nanowires", Proc. SPIE 7036, Spintronics, 703610 (4 September 2008); https://doi.org/10.1117/12.797405
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