自旋电子学
无定形固体
材料科学
铁磁共振
磁化
溅射沉积
薄膜
铁磁性
凝聚态物理
光电子学
溅射
非晶态金属
腔磁控管
能量转换效率
磁电阻
矫顽力
核磁共振
电导率
微磁学
霍尔效应
磁各向异性
自旋霍尔效应
自旋(空气动力学)
垂直的
作者
Chunli Zhao,Guang Zeng,Jiyang Ou,Guibin Lan,Jing Dong,Yuqiang Wang,Jihao Xia,Chuangwen Wu,Yang Yao,Junwei Zhang,Yong Peng,Xiaoyu Xiong,Shipeng Shen,Congli He,Shiheng Liang,Ruifen Dou,Guoqiang Yu
摘要
Deterministic control of perpendicular magnetization via spin–orbit torque (SOT) offers a promising route toward nonvolatile, ultrafast, and energy-efficient spintronic applications. Obtaining large-scale, high-quality spin source materials with high charge-to-spin conversion efficiency remains challenging. Here, we fabricated large-area amorphous PtTe thin films using magnetron sputtering and investigated their SOT efficiency through spin-torque ferromagnetic resonance and current-induced magnetization switching measurements. The amorphous PtTe films exhibit a high SOT efficiency of 0.322 and a spin Hall conductivity comparable to that of crystalline PtTe2, which may originate from short-range ordered structures in amorphous PtTe films and increased scattering. This work paves the way for the large-area production and practical application of amorphous thin films as efficient spin sources in next-generation spintronic technologies.
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