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Ultralow Current Switching of Synthetic‐Antiferromagnetic Magnetic Tunnel Junctions Via Electric‐Field Assisted by Spin–Orbit Torque

Brandon R. Zink, Delin Zhang, Hongshi Li, Onri Jay Benally, Yang Lv, Deyuan Lyu, Jian‐Ping Wang

2022Advanced Electronic Materials18 citationsDOIOpen Access PDF

Abstract

Abstract Spintronic devices, especially electric‐field and spin–orbit torque driven magnetic tunnel junctions (MTJs), are promising candidates to replace the current memory and logic components for satisfying future computing demands. Current spin–orbit torque based MTJ devices with a single free layer and spin Hall channel still face high current density for switching. Here, 150‐nm perpendicular MTJs are designed and fabricated with a synthetic‐antiferromagnetic free layer and a bilayered spin Hall channel. The switching behavior is investigated via combination of forces from electric‐field and spin–orbit torque, where the electric field can modulate the exchange coupling of the synthetic‐antiferromagnetic free layer. Through an assistance of spin–orbit torque, bidirectional switching is obtained with switching current density as low as 3 × 10 3 A cm −2 , which is two orders of magnitude lower than that of the current best reported values. These results suggest that electric‐field switching of synthetic‐antiferromagnetic MTJs could be a promising approach for reducing write current density of spintronic devices.

Topics & Concepts

SpintronicsCurrent densityCondensed matter physicsMaterials scienceAntiferromagnetismElectric fieldTunnel magnetoresistanceTorqueSpin (aerodynamics)Spin-transfer torqueMagnetic fieldElectric currentSpin Hall effectCurrent (fluid)Tunnel junctionOptoelectronicsElectrical engineeringPhysicsFerromagnetismSpin polarizationMagnetizationElectronEngineeringQuantum tunnellingThermodynamicsQuantum mechanicsMagnetic properties of thin filmsFerroelectric and Negative Capacitance DevicesAdvanced Memory and Neural Computing
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