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Spin-orbit torque effect in silicon-based sputtered Mn_(3)Sn film
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作者 Sha Lu dequan meng +3 位作者 Adnan Khan Ziao Wang Shiwei Chen Shiheng Liang 《Chinese Physics B》 SCIE EI CAS CSCD 2024年第10期394-399,共6页
Noncollinear antiferromagnet Mn_(3)Sn has shown remarkable efficiency in charge-spin conversion,a novel magnetic spin Hall effect,and a stable topological antiferromagnetic state,which has resulted in great interest f... Noncollinear antiferromagnet Mn_(3)Sn has shown remarkable efficiency in charge-spin conversion,a novel magnetic spin Hall effect,and a stable topological antiferromagnetic state,which has resulted in great interest from researchers in the field of spin-orbit torque.Current research has primarily focused on the spin-orbit torque effect of epitaxially grown noncollinear antiferromagnet Mn_(3)Sn films.However,this method is not suitable for large-scale industrial preparation.In this study,amorphous Mn_(3)Sn films and Mn_(3)Sn/Py heterostructures were prepared using magnetron sputtering on silicon substrates.The spin-torque ferromagnetic resonance measurement demonstrated that only the conventional spin-orbit torque effect generated by in-plane polarized spin currents existed in the Mn_(3)Sn/Py heterostructure,with a spin-orbit torque efficiency of 0.016.Additionally,we prepared the perpendicular magnetized Mn_(3)Sn/CoTb heterostructure based on amorphous Mn_(3)Sn film,where the spin-orbit torque driven perpendicular magnetization switching was achieved with a lower critical switching current density(3.9×10^(7)A/cm^(2))compared to Ta/CoTb heterostructure.This research reveals the spin-orbit torque effect of amorphous Mn_(3)Sn films and establishes a foundation for further advancement in the practical application of Mn_(3)Sn materials in spintronic devices. 展开更多
关键词 SPINTRONICS noncollinear antiferromagnetism spin-orbit torque
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基于非共线自旋源的自旋轨道力矩驱动磁畴壁运动
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作者 赵阳 任传童 +4 位作者 孟德全 王瑞龙 罗为 张悦 梁世恒 《科学通报》 EI CAS CSCD 北大核心 2023年第5期524-531,共8页
通过电学有效驱动磁畴壁运动是自旋电子学领域的重要研究内容之一,其中零磁场下基于自旋轨道力矩效应驱动磁矩翻转是一种重要的磁畴壁运动调控方式.为了进一步实现低功耗、高速度、高效率的磁畴壁运动,本文研究了非共线自旋源所产生的... 通过电学有效驱动磁畴壁运动是自旋电子学领域的重要研究内容之一,其中零磁场下基于自旋轨道力矩效应驱动磁矩翻转是一种重要的磁畴壁运动调控方式.为了进一步实现低功耗、高速度、高效率的磁畴壁运动,本文研究了非共线自旋源所产生的区别于传统型自旋轨道力矩对磁畴的驱动行为.我们利用微磁学模拟研究了自旋流中类Rashba的Sy、类Dresselhaus的Sx和垂直于膜面的S_(z)三种自旋极化下自旋轨道力矩驱动磁畴壁运动,阐明了对布洛赫畴壁(Bloch wall)、奈尔畴壁(Néel wall)和头对头畴壁(head-to-head wall)的驱动及畴壁性质的影响,探究了Dzyaloshinskii-Moriya相互作用下磁畴壁运动中倾斜角的影响.本文对于理解基于非共线自旋源的自旋轨道力矩驱动磁畴壁运动具有一定意义,可为新型自旋电子器件的开发和应用提供物理基础. 展开更多
关键词 自旋电子学 自旋轨道力矩 磁畴壁运动 电荷-自旋转换
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