Issue 7, 2023

Enhanced spin–orbit torque and field-free switching in Au/TMDs/Ni hybrid structures

Abstract

Spin–orbit torque (SOT) plays a significant role in spintronic logic and memory devices. However, due to the limited spin Hall angle and SOT symmetry in a heavy-metal–ferromagnet bilayer, further improving SOT efficiency and all-electric magnetization manipulation remain a challenge. Here we report enhanced SOT efficiency and all-electric switching in Au based magnetic structures, by inserting two-dimensional transition metal dichalcogenides (2D TMDs) with large spin–orbit coupling. With the TMD spacer insert, both damping-like and field-like SOTs are improved, and an unconventional out-of-plane damping-like SOT is induced, due to the interface orbital hybridization, modified spin-mixing conductance and orbital current. Moreover, current induced field-free magnetization switching is demonstrated in Au/WTe2/Ni and Au/MoS2/Ni devices, and it shows multiple intermediate states and can be efficiently controlled by an electric current. Our results open a path for increasing torques and expand the application of 2D TMDs in spintronic devices for neuromorphic computing.

Graphical abstract: Enhanced spin–orbit torque and field-free switching in Au/TMDs/Ni hybrid structures

Supplementary files

Article information

Article type
Communication
Submitted
15 Nov 2022
Accepted
13 Jan 2023
First published
16 Jan 2023

Nanoscale, 2023,15, 3142-3149

Enhanced spin–orbit torque and field-free switching in Au/TMDs/Ni hybrid structures

Y. Luo, Q. Chen, R. Li, Y. Wang, W. Lv, B. Zhang, Y. Fan, H. Wu and Z. Zeng, Nanoscale, 2023, 15, 3142 DOI: 10.1039/D2NR06390E

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