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Improved magnetoresistance through spacer thickness optimization in tilted pseudo spin valves based on L1 (111)-oriented FePtCu fixed layers
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Citations
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References
2009
Year
Magnetic PropertiesEngineeringMagnetic ResonanceSpacer Thickness OptimizationSpintronic MaterialMagnetic MaterialsMagnetoresistanceMagnetic SensorMagnetismSuperconductivityOptimum Spacer ThicknessPhysicsInterlayer Exchange CouplingMagnetic MaterialSpintronicsFerromagnetismCu Spacer ThicknessNatural SciencesApplied PhysicsCondensed Matter PhysicsMagnetic Device
Through optimization of the Cu spacer thickness, we demonstrate magnetoresistance (MR) up to 5% in FePtCu/CoFe/Cu/CoFe/NiFe pseudo spin valves based on L10 (111) FePtCu fixed layers with a tilted magnetization. We find an optimum spacer thickness of about 2.4 nm which correlates with a clear onset of strong interlayer exchange coupling below 2.4 nm and spin-independent current shunting in the spacer above 2.4 nm. We argue that yet higher MR should be possible through further reduction in the interlayer exchange coupling.
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