High thermal stability and low Gilbert damping constant of CoFeB/MgO bilayer with perpendicular magnetic anisotropy by Al capping and rapid thermal annealing

High thermal stability and low Gilbert damping constant of CoFeB/MgO bilayer with perpendicular magnetic anisotropy by Al capping and rapid thermal annealing

We demonstrate that the magnetic anisotropy of the CoFeB/MgO bilayer can be manipulated by adding an aluminum capping layer. After rapid thermal annealing, we can achieve large perpendicular magnetic anisotropy of CoFeB with a high thermal stability factor (Δ = 72) while the Gilbert damping constant...

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Veröffentlicht in:Applied physics letters 2014-04, Vol.104 (14)
Hauptverfasser: Wang, Ding-Shuo, Lai, Shu-Yu, Lin, Tzu-Ying, Chien, Cheng-Wei, Ellsworth, David, Wang, Liang-Wei, Liao, Jung-Wei, Lu, Lei, Wang, Yung-Hung, Wu, Mingzhong, Lai, Chih-Huang
Format: Artikel
Sprache:eng
Schlagworte:
ALUMINIUM
Aluminum
ANISOTROPY
ANNEALING
Applied physics
BONDING
Boron
Capping
Damping
LAYERS
Magnesium oxide
MAGNESIUM OXIDES
Magnetic anisotropy
MATERIALS SCIENCE
Radioactivity
Stiffness
Thermal stability
THICKNESS
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Zusammenfassung:We demonstrate that the magnetic anisotropy of the CoFeB/MgO bilayer can be manipulated by adding an aluminum capping layer. After rapid thermal annealing, we can achieve large perpendicular magnetic anisotropy of CoFeB with a high thermal stability factor (Δ = 72) while the Gilbert damping constant can be reduced down to only 0.011 simultaneously. The boron and residual oxygen in the bulk CoFeB layer are properly absorbed by the Al capping layer during annealing, leading to the enhanced exchange stiffness and reduced damping. The interfacial Fe-O bonding can be optimized by tuning annealing temperature and thickness of Al, resulting in enhanced perpendicular anisotropy.
ISSN:0003-6951
1077-3118
DOI:10.1063/1.4870770