Field-free spin-orbit torque switching via out-of-plane spin-polarization induced by an antiferromagnetic insulator/heavy metal interface

Manipulating spin polarization orientation is challenging but crucial for field-free spintronic devices. Although such manipulation has been demonstrated in a limited number of antiferromagnetic metal-based systems, the inevitable shunting effects from the metallic layer can reduce the overall devic...

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Bibliographic Details
Published in:Nature communications 2023-05, Vol.14 (1), p.2871-2871, Article 2871
Main Authors: Wang, Mengxi, Zhou, Jun, Xu, Xiaoguang, Zhang, Tanzhao, Zhu, Zhiqiang, Guo, Zhixian, Deng, Yibo, Yang, Ming, Meng, Kangkang, He, Bin, Li, Jialiang, Yu, Guoqiang, Zhu, Tao, Li, Ang, Han, Xiaodong, Jiang, Yong
Format: Article
Language:English
Subjects:
119/118
147/143
147/3
639/301/357/997
639/766/1130/2798
639/925/927/1062
Antiferromagnetism
Compressive properties
Electrons
Energy efficiency
Ferromagnetism
Heavy metals
Heterostructures
Humanities and Social Sciences
Insulation
Magnetic fields
Magnetic switching
Magnetization
multidisciplinary
Nickel oxides
Polarization
Polarization (spin alignment)
Science
Science (multidisciplinary)
Spintronics
Substrates
Tantalum
Torque
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Summary:Manipulating spin polarization orientation is challenging but crucial for field-free spintronic devices. Although such manipulation has been demonstrated in a limited number of antiferromagnetic metal-based systems, the inevitable shunting effects from the metallic layer can reduce the overall device efficiency. In this study, we propose an antiferromagnetic insulator-based heterostructure NiO/Ta/Pt/Co/Pt for such spin polarization control without any shunting effect in the antiferromagnetic layer. We show that zero-field magnetization switching can be realized and is related to the out-of-plane component of spin polarization modulated by the NiO/Pt interface. The zero-field magnetization switching ratio can be effectively tuned by the substrates, in which the easy axis of NiO can be manipulated by the tensile or compressive strain from the substrates. Our work demonstrates that the insulating antiferromagnet based heterostructure is a promising platform to enhance the spin-orbital torque efficiency and achieve field-free magnetization switching, thus opening an avenue towards energy-efficient spintronic devices. Electrically switching perpendicular magnetized ferromagnets using spin-orbit torques without assisting magnetic fields is a major goal for spintronics. Recently, several works have proposed using out-of-plane spin polarized currents to achieve this, but these rely on antiferromagnetic metals with low Neel temperatures. Here, Wang et al show that such out-of-plane spin polarization driven switching can be achieved using the interface of an antiferromagnetic insulator and a heavy metal.
ISSN:2041-1723
2041-1723
DOI:10.1038/s41467-023-38550-1