CoFeB/MgO/CoFeB structures with orthogonal easy axes: perpendicular anisotropy and damping

We report on the Gilbert damping parameter α, the effective magnetization 4πMeff, and the asymmetry of the g-factor in bottom-CoFeB(0.93 nm)/MgO(0.90-1.25 nm)/CoFeB(1.31 nm)-top as-deposited systems. Magnetization of CoFeB layers exhibits a specific noncollinear configuration with orthogonal easy ax...

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Veröffentlicht in:	Journal of physics. Condensed matter 2017-12, Vol.29 (48), p.485803-485803
Hauptverfasser:	G owi ski, H, ywczak, A, Wrona, J, Krysztofik, A, Go cia ska, I, Stobiecki, T, Dubowik, J
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Sprache:	eng
Schlagworte:	ferromagnetic resonance magnetization precession damping perpendicular magnetic anisotropy
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container_end_page	485803
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container_title	Journal of physics. Condensed matter
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creator	G owi ski, H ywczak, A Wrona, J Krysztofik, A Go cia ska, I Stobiecki, T Dubowik, J
description	We report on the Gilbert damping parameter α, the effective magnetization 4πMeff, and the asymmetry of the g-factor in bottom-CoFeB(0.93 nm)/MgO(0.90-1.25 nm)/CoFeB(1.31 nm)-top as-deposited systems. Magnetization of CoFeB layers exhibits a specific noncollinear configuration with orthogonal easy axes and with 4πMeff values of +2.2 kG and −2.3 kG for the bottom and top layers, respectively. We show that 4πMeff depends on the asymmetry g⊥−g∥ of the g-factor measured in the perpendicular and the in-plane directions revealing a highly nonlinear relationship. In contrast, the Gilbert damping is practically the same for both layers. Annealing of the films results in collinear easy axes perpendicular to the plane for both layers. However, the linewidth is strongly increased due to enhanced inhomogeneous broadening.
doi_str_mv	10.1088/1361-648X/aa9530
format	Article
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Magnetization of CoFeB layers exhibits a specific noncollinear configuration with orthogonal easy axes and with 4πMeff values of +2.2 kG and −2.3 kG for the bottom and top layers, respectively. We show that 4πMeff depends on the asymmetry g⊥−g∥ of the g-factor measured in the perpendicular and the in-plane directions revealing a highly nonlinear relationship. In contrast, the Gilbert damping is practically the same for both layers. Annealing of the films results in collinear easy axes perpendicular to the plane for both layers. 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subjects	ferromagnetic resonance magnetization precession damping perpendicular magnetic anisotropy
title	CoFeB/MgO/CoFeB structures with orthogonal easy axes: perpendicular anisotropy and damping
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