利用楔形铂/钴/铂自旋轨道力矩装置模拟突触可塑性

arXiv - PHYS - Applied Physics Pub Date : 2024-09-10 DOI:arxiv-2409.06286

Shiwei Chen, Mishra Rahul, Huanjian Chen, Hyunsoo Yang, Xuepeng Qiu

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引用次数: 0

摘要

我们制造出了具有垂直磁各向异性的楔形铂/钴/铂器件，并证明了钴磁化可以在没有任何磁场的情况下完全通过自旋轨道力矩进行切换。与突触权重类似，我们观察到楔形铂/钴/铂器件的钴磁化状态（由反常霍尔电阻 RH 呈现）可通过施加脉冲电流进行连续调谐，并具有大量非易失性电平。此外，研究人员还研究了楔形铂/钴/铂器件的突触可塑性，包括兴奋性突触后电位或抑制性突触后电位以及尖峰时间依赖性可塑性。这项研究阐明了楔形铂/钴/铂器件有望成为由自旋电流诱导的新型人工突触器件的候选器件，并为自旋电子学与突触器件的结合铺平了道路。

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Mimicking synaptic plasticity with wedged Pt/Co/Pt spin-orbit torque device

We fabricated a wedge-shaped Pt/Co/Pt device with perpendicular magnetic anisotropy and manifested that the Co magnetization can be solely switched by spin-orbit torque without any magnetic field. Similar to the synaptic weight, we observed that the state of Co magnetization (presented by the anomalous Hall resistance RH) of the wedged Pt/Co/Pt device can be tuned continuously with a large number of nonvolatile levels by applied pulse currents. Furthermore, we studied the synaptic plasticity of the wedged Pt/Co/Pt device, including the excitatory postsynaptic potentials or inhibitory postsynaptic potentials and spiking-time-dependent plasticity. The work elucidates the promise of the wedged Pt/Co/Pt device as a candidate for a new type of artificial synaptic device that is induced by a spin current and paves a substantial pathway toward the combination of spintronics and synaptic devices.

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arXiv - PHYS - Applied Physics

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