Long spin coherence length and bulk-like spin-orbit torque in ferrimagnetic multilayers

物理 自旋(空气动力学) 旋转扭矩传递 磁化 磁阻随机存取存储器 自旋霍尔效应 各向异性 自旋波 磁各向异性 磁场 自旋极化
作者
Jiawei Yu,Do Bang,Rahul Mishra,Rajagopalan Ramaswamy,Jung Hyun Oh,Hyeon-Jong Park,Yunboo Jeong,Pham Van Thach,Dongkyu Lee,Gyungchoon Go,Seo Won Lee,Yi Wang,Shuyuan Shi,Xuepeng Qiu,Hiroyuki Awano,Kyung Jin Lee,Hyunsoo Yang
出处
期刊:arXiv: Materials Science 被引量:9
标识
DOI:10.1038/s41563-018-0236-9
摘要

Ferromagnetic spintronics has been a main focus as it offers non-volatile memory and logic applications through current-induced spin-transfer torques. Enabling wider applications of such magnetic devices requires a lower switching current for a smaller cell while keeping the thermal stability of magnetic cells for non-volatility. As the cell size reduces, however, it becomes extremely difficult to meet this requirement with ferromagnets because spin-transfer torque for ferromagnets is a surface torque due to rapid spin dephasing, leading to the 1/ferromagnet-thickness dependence of the spin-torque efficiency. Requirement of a larger switching current for a thicker and thus more thermally stable ferromagnetic cell is the fundamental obstacle for high-density non-volatile applications with ferromagnets. Theories predicted that antiferromagnets have a long spin coherence length due to the staggered spin order on an atomic scale, thereby resolving the above fundamental limitation. Despite several spin-torque experiments on antiferromagnets and ferrimagnetic alloys, this prediction has remained unexplored. Here we report a long spin coherence length and associated bulk-like-torque characteristic in an antiferromagnetically coupled ferrimagnetic multilayer. We find that a transverse spin current can pass through > 10 nm-thick ferrimagnetic Co/Tb multilayers whereas it is entirely absorbed by 1 nm-thick ferromagnetic Co/Ni multilayer. We also find that the switching efficiency of Co/Tb multilayers partially reflects a bulk-like-torque characteristic as it increases with the ferrimagnet-thickness up to 8 nm and then decreases, in clear contrast to 1/thickness-dependence of Co/Ni multilayers. Our results on antiferromagnetically coupled systems will invigorate researches towards energy-efficient spintronic technologies.
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