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Voltage Controlled Interlayer Exchange Coupling and Magnetic Anisotropy Effects in Perpendicular Magnetic Heterostructures

Akash Surampalli, Anup Kumar Bera, Rajesh V. Chopdekar, Alan Kalitsov, Lei Wan, J. A. Katine, Derek A. Stewart, Tiffany Santos, Bhagwati Prasad

2024Advanced Functional Materials10 citationsDOIOpen Access PDF

Abstract

Abstract Spintronic devices that utilize spin transfer torque are promising for integrated memory applications. However, these devices face substantial energy consumption challenges due to the high current densities required for switching. Conversely, voltage‐driven spintronic devices, using capacitive displacement charge, can realize switching operations that are energy‐efficient (≈1–10 fJ bit −1 ). This work investigates switching based on voltage control of the interlayer exchange coupling in perpendicular magnetic anisotropy (PMA) multilayered heterostructures. Unlike previous works that utilized gating techniques that employ ionic transport mechanisms to control interlayer exchange coupling, this study employs electrostatic gating by using MgO, which is more compatible with modern spintronic‐based memories. These results suggest that the magnetization anisotropy, and the magnitude, and phase of the Ruderman‐Kittel‐Kasuya‐Yosida (RKKY) coupling function with spacer layer thickness can be controlled through electric gating, providing a promising avenue for the development of energy‐efficient magnetic data storage devices.

Topics & Concepts

Materials scienceCondensed matter physicsPerpendicularHeterojunctionMagnetic anisotropyCoupling (piping)AnisotropyVoltageInductive couplingMagnetic fieldMagnetizationOptoelectronicsElectrical engineeringOpticsComposite materialPhysicsEngineeringGeometryQuantum mechanicsMathematicsMagnetic properties of thin filmsMagnetic and transport properties of perovskites and related materialsMagnetic Properties of Alloys
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