| Literature DB >> 35099980 |
Guanzhong Wu1, Dongying Wang1, Nishchhal Verma1, Rahul Rao2, Yang Cheng1, Side Guo1, Guixin Cao1, Kenji Watanabe3, Takashi Taniguchi4, Chun Ning Lau1, Fengyuan Yang1, Mohit Randeria1, Marc Bockrath1, P Chris Hammel1.
Abstract
Engineering magnetic anisotropy in a ferro- or ferrimagnetic (FM) thin film is crucial in a spintronic device. One way to modify the magnetic anisotropy is through the surface of the FM thin film. Here, we report the emergence of a perpendicular magnetic anisotropy (PMA) induced by interfacial interactions in a heterostructure comprised of a garnet ferrimagnet, Y3Fe5O12 (YIG), and a low-symmetry, high spin-orbit coupling (SOC) transition metal dichalcogenide, WTe2. At the same time, we also observed an enhancement in Gilbert damping in the WTe2-covered YIG area. Both the magnitude of interface-induced PMA and the Gilbert damping enhancement have no observable WTe2 thickness dependence down to a single quadruple layer, indicating that the interfacial interaction plays a critical role. The ability of WTe2 to enhance the PMA in FM thin film, combined with its previously reported capability to generate out-of-plane damping like spin torque, makes it desirable for magnetic memory applications.Entities:
Keywords: ferrimagnetic insulator; magnetic resonance force microscope; perpendicular magnetic anisotropy; transition metal dichalcogenides
Year: 2022 PMID: 35099980 DOI: 10.1021/acs.nanolett.1c04237
Source DB: PubMed Journal: Nano Lett ISSN: 1530-6984 Impact factor: 11.189