期刊
NANO LETTERS
卷 23, 期 12, 页码 5482-5489出版社
AMER CHEMICAL SOC
DOI: 10.1021/acs.nanolett.3c00639
关键词
field-free switching; spin-orbit torques; magnetic tunnel junction; memories; MRAM; spintronics
Current-induced spin-orbit torques (SOTs) are used to manipulate the magnetic state of magnetic tunnel junctions (MTJs) for various applications. However, the need for an external magnetic field limits its practical implementation. In this study, a field-free switching solution is proposed by shaping the SOT channel to create a bend in the SOT current, enabling deterministic switching. Experimental results demonstrate the feasibility of this approach in nanosecond time scales.
Current-induced spin-orbit torques (SOTs) enablefast andefficient manipulation of the magnetic state of magnetic tunnel junctions(MTJs), making them attractive for memory, in-memory computing, andlogic applications. However, the requirement of the external magneticfield to achieve deterministic switching in perpendicularly magnetizedSOT-MTJs limits its implementation for practical applications. Here,we introduce a field-free switching (FFS) solution for the SOT-MTJdevice by shaping the SOT channel to create a bendin the SOT current. The resulting bend in the charge current createsa spatially nonuniform spin current, which translates into inhomogeneousSOT on an adjacent magnetic free layer enabling deterministic switching.We demonstrate FFS experimentally on scaled SOT-MTJs at nanosecondtime scales. This proposed scheme is scalable, material-agnostic,and readily compatible with wafer-scale manufacturing, thus creatinga pathway for developing purely current-driven SOT systems.
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