垂直磁化随机磁隧道结特性的温度依赖性

Applied Physics Express Pub Date : 2024-04-25 DOI:10.35848/1882-0786/ad43b0

Haruna Kaneko, Rikuto Ota, Keito Kobayashi, S. Kanai, M. Elyasi, Gerrit Bauer, Hideo Ohno, Shunsuke Fukami

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引用次数: 0

摘要

随机磁隧道结（s-MTJs）作为基于自旋电子学的概率计算机（p-）的关键元件备受关注。p 型计算机的性能取决于单个 s-MTJ 随温度变化的时域和时间平均响应。在此，我们展示了具有垂直磁化的 s-MTJ 的时域（射频）电压和时间平均（直流）电阻〈R〉与垂直磁场 H z 和温度 T=20-130°C 的函数关系。我们观察到，弛豫时间（时域响应）和〈R〉-H z 曲线的斜率（时间平均响应）都随着温度的升高而减小。我们讨论了这些结果背后的物理学原理，包括热诱导的空间非均匀集体自旋动力学。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Temperature dependence of the properties of stochastic magnetic tunnel junction with perpendicular magnetization

Stochastic magnetic tunnel junctions (s-MTJs) attract attention as key elements for spintronics-based probabilistic (p-) computers. The performance of p-computers is governed by the time-domain and the time-averaged response of single s-MTJs varying with temperature. Here we present results of the time-domain (rf) voltage and time-averaged (dc) resistance 〈R〉 of s-MTJs with perpendicular magnetization as functions of perpendicular magnetic fields H z and temperatures T=20-130°C. We observe that both relaxation time (time-domain response) and the slope of the 〈R〉-H z curve (time-averaged response) decrease with increasing temperature. We discuss the physics underlying these results including the thermally induced spatially non-uniform collective spin dynamics.

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Applied Physics Express

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