Publication | Open Access
Magnetic Anisotropy Engineering in Thin Film Ni Nanostructures by Magnetoelastic Coupling
100
Citations
18
References
2014
Year
EngineeringMagnetic ResonanceElectric CurrentsMagnonicsSpintronic MaterialMagnetoelastic MaterialsMagnetoresistanceMagnetismNanoelectronicsMagnetohydrodynamicsMagnetic Anisotropy EngineeringMagnetic Thin FilmsMaterials SciencePhysicsNanotechnologyNano-oscillatorsMagnetoelasticityMagnetic MaterialFuture Spintronics DevicesSpintronicsFerromagnetismLow Power ApproachesNatural SciencesApplied PhysicsMagnetoelastic CouplingThin FilmsMagnetic DeviceMagnetic Property
The control of magnetization by low power approaches, instead of power-hungry magnetic fields generated by electric currents, is a key challenge for future spintronics devices. Researchers have now shown that by exploiting magnetoelastic coupling, magnetization can be accurately controlled in nanostructures.
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