自旋电子学
级联
材料科学
堆栈(抽象数据类型)
离子
光电子学
电压
高效能源利用
电流密度
自旋霍尔效应
纳米技术
工程物理
凝聚态物理
化学
电子
电气工程
铁磁性
物理
自旋极化
计算机科学
核物理学
有机化学
工程类
色谱法
量子力学
程序设计语言
作者
Sabpreet Bhatti,Subhakanta Das,Abdillah Shaik,J. Chan,Yew Seng Kay,Shengyao Li,S. N. Piramanayagam
摘要
Pursuing enhanced spin–orbit torque (SOT) has become a significant focus for achieving energy-efficient spintronics devices. Researchers have explored different materials, layer engineering, and various post-deposition modification methods to realize higher SOT. Here, we have utilized the bombardment of mixed ions (Ar+ and He+ in various ratios) with 0.6 kV bias voltage to enhance the SOT efficiency in a Pt/Co/W stack. The bombardment modifies the physical properties (magnetic, electric, and structural) due to cascade collision, knocking off atoms (from the surface), and ion implantation. The increased percentage of He+ suppresses the drastic behavior of cascade collisions, and hence, the properties are tunable by changing the gas ratio. We exploited this behavior to design a material stack with enhanced SOT efficiency. We fabricated Hall bars to quantify SOT and observed a 4.5× increase in the effective damping-like efficiency. The efficiency and switching current density in the stack could be tuned by the variation of Ar:He ion ratio and the exposure duration. This study offers an easy route to tune the energy efficiency of spin devices, contributing to the advancement of next-generation spintronics.
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