低温下垂直磁隧道结自旋转矩开关的热效应

arXiv: Applied Physics Pub Date : 2020-09-03 DOI:10.1103/PHYSREVAPPLIED.15.034088

L. Rehm, G. Wolf, B. Kardasz, Egecan Cogulu, Yizhang Chen, M. Pinarbasi, A. Kent

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引用次数: 3

摘要

温度在磁隧道结的自旋转矩开关中起着重要的作用，引起磁化波动，使开关电压降低，但也会引入开关误差。在这里，我们系统地研究了最先进的垂直磁隧道结纳米柱(直径40至60纳米)从室温到4 K的自旋转矩开关概率的温度依赖性，采样了多达一百万次的开关事件。从热辅助自旋转矩开关模型获得的开关电压下的结温在低于约75 K的温度下达到饱和，表明结加热在此温度以下是显著的，并且自旋转矩开关在4 K以下仍然是高度随机的。纳米柱结中的热流模型表明，这种效应与结中金属的热导率和热容的降低有关。

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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Thermal Effects in Spin-Torque Switching of Perpendicular Magnetic Tunnel Junctions at Cryogenic Temperatures

Temperature plays an important role in spin torque switching of magnetic tunnel junctions causing magnetization fluctuations that decrease the switching voltage but also introduce switching errors. Here we present a systematic study of the temperature dependence of the spin torque switching probability of state-of-the-art perpendicular magnetic tunnel junction nanopillars (40 to 60 nm in diameter) from room temperature down to 4 K, sampling up to a million switching events. The junction temperature at the switching voltage---obtained from the thermally assisted spin torque switching model---saturates at temperatures below about 75 K, showing that junction heating is significant below this temperature and that spin torque switching remains highly stochastic down to 4 K. A model of heat flow in a nanopillar junction shows this effect is associated with the reduced thermal conductivity and heat capacity of the metals in the junction.

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arXiv: Applied Physics

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