Easy‐Cone Magnetic State Induced Ultrahigh Sensitivity and Low Driving Current in Spin‐Orbit Coupling 3D Magnetic Sensors

材料科学 灵敏度(控制系统) 磁场 磁各向异性 磁化 磁电阻 凝聚态物理 磁强计 铁磁性 磁畴 消磁场 物理 电子工程 量子力学 工程类
作者
Wei Su,Zhongqiang Hu,Yaojin Li,Yongliang Han,Yi-Cheng Chen,Chenying Wang,Zhuangde Jiang,Zhexi He,Jingen Wu,Ziyao Zhou,Zhiguang Wang,Ming Liu
出处
期刊:Advanced Functional Materials [Wiley]
卷期号:33 (10) 被引量:13
标识
DOI:10.1002/adfm.202211752
摘要

Abstract Measurement of 3D vector magnetic field is of vital importance for the development of magnetic navigation, biomedical diagnosis, and microimaging. Traditional 3D magnetic sensors require cooperation of multiple sensors on three orthogonal planes, resulting in disadvantages of bulky size and low spatial resolution. Recently proposed spin orbit torque sensor based on ferromagnetic/heavy‐metal heterostructures can detect three magnetic field components individually due to the different symmetries of current‐polarity‐dependent magnetization dynamic. However, the large driving current density and complex driving procedure hinder their practical application, especially in AC magnetic field detection. Herein, 3D magnetic sensors with dramatically reduced driving current density are reported, one fifth of the original value, by exquisite engineering of the magnetic anisotropy in Pt/Co/Ta heterostructures. With further reduced perpendicular magnetic anisotropy, the sensor in the easy‐cone state demonstrates a record‐high sensitivity of 31196 V A −1 T −1 . More importantly, the easy‐cone state sensor can work with an ultralow driving current density of 3.8 kA cm −2 , which is three orders lower than previous results. Although easy‐cone state sensor can only measure the z ‐axis field, highly compact 3D magnetic sensor can be realized by adoption of two anisotropic magnetoresistance sensors, promising great potential application in space‐ and energy‐restricted scenarios.

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