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Cobalt oxide/ferromagnet bilayers: Exchange coupling and dominance of the antiferromagnet

Using cobalt oxide/ferromagnet bilayers with strong magnetic coupling, the nature of the interfacial exchange interaction in exchange bias systems has been investigated. For $\chem{Fe}$, $\chem{Co}$ and $\chem{Ni}$ as ferromagnetic materials, an almost linear temperature dependence of the exchange b...

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Bibliographic Details
Published in:Europhysics letters 2003-12, Vol.64 (6), p.803-809
Main Author: Gruyters, M
Format: Article
Language:English
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Summary:Using cobalt oxide/ferromagnet bilayers with strong magnetic coupling, the nature of the interfacial exchange interaction in exchange bias systems has been investigated. For $\chem{Fe}$, $\chem{Co}$ and $\chem{Ni}$ as ferromagnetic materials, an almost linear temperature dependence of the exchange bias field $H_{\ab{E}}$ and a common blocking temperature $T_{\ab{B}}$ of 175$\un{K}$ have been found. Additionally, an inverse proportionality between $H_{\ab{E}}$ and the thickness of the ferromagnetic layer $t_{\ab{FM}}$ has been confirmed. The average coupling energies $\Delta E$ at T=10$\un{K}$ have been determined to 0.90, 1.02 and 0.80$\un{erg/cm^2}$ for $\chem{CoO/Fe}$, $\chem{CoO/Co}$ and $\chem{CoO/Ni}$ bilayers, respectively. The presently observed behavior strongly deviates from recent theoretical mean-field analysis and other experimental investigations on antiferromagnetic/ferromagnetic bilayers.
ISSN:0295-5075
1286-4854
DOI:10.1209/epl/i2003-00629-y