Tunnelling anisotropic magnetoresistance due to antiferromagnetic CoO tunnel barriers
Copyright policy )Tunnelling anisotropic magnetoresistance due to antiferromagnetic CoO tunnel barriers
AbstractA new approach in spintronics is based on spin-polarized charge transport phenomena governed by antiferromagnetic (AFM) materials. Recent studies have demonstrated the feasibility of this approach for AFM metals and semiconductors. We report tunneling anisotropic magnetoresistance (TAMR) due to the rotation of antiferromagnetic moments of an insulating CoO layer, incorporated into a tunnel junction consisting of sapphire(substrate)/fcc-Co/CoO/AlOx/Al. The ferromagnetic Co layer is exchange coupled to the AFM CoO layer and drives rotation of the AFM moments in an external magnetic field. The results may help pave the way towards the development of spintronic devices based on AFM insulators.
- University of Twente Netherlands
- MESA+ Institute for Nanotechnology Netherlands
Magnetic properties and materials, Electronic devices, Spintronics, Article
Magnetic properties and materials, Electronic devices, Spintronics, Article
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