Physics – Condensed Matter – Materials Science
Scientific paper
2005-10-18
Mat. Sci. Eng. B 126, 180-186 (2006)
Physics
Condensed Matter
Materials Science
Scientific paper
We present a detailed study on domain imaging, Kerr effect magnetometry (MOKE) and magnetoresistance (MR), for a series of 20 nm Co$_{73.8}$Fe$_{16.2}$B$_{10}$ thin films, both as-deposited (amorphous) and annealed (crystalline). By considering the two different (orthogonal) in-plane magnetization components, obtained by MOKE measurements, we were able to study the uniaxial anisotropy induced during CoFeB-deposition and to discriminate the magnetization processes under a magnetic field parallel and perpendicular to such axis. MOKE magnetic imaging enabled us to observe the dominant magnetization processes, namely domain wall motion and moment rotation. These processes were correlated with the behavior of the magnetoresistance, which depends both on short-range spin disorder electron scattering and on the angle between the electrical current and the spontaneous magnetization ($\emph{\textbf{M}}_{S}$). A simple numerical treatment based on Stoner-Wolfarth model enables us to satisfactorily predict the magnetization behaviour observed in these films. A comparison between the results in Co$_{73.8}$Fe$_{16.2}$B$_{10}$ films and the previous ones obtained in annealed Co$_{80}$Fe$_{20}$ films, show that the introduction of boron in CoFe reduces significatively the coercive and saturation fields along the easy axis (e.g. $H_{c}$ from $\sim$ 2 down to $\sim$ 0.5 kAm$^{-1}$). Also, the magnetization along the hard axis saturates at lower fields. We conclude that amorphous and nanocrystalline CoFeB films show low coercive fields and abrupt switching, as well as absence of short range spin disorder effects after switching when compared with Co$_{80}$Fe$_{20}$.
Araujo J.-P.
Cardoso S. S. S.
Carpinteiro F.
Ferreira Raul
Freitas Pedro
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