Dzyaloshinskii-Moriya interaction and spin-orbit torque at the Ir/Co interface
Yuto Ishikuro, Masashi Kawaguchi, Naoaki Kato, Yong-Chang Lau,, Masamitsu Hayashi

TL;DR
This study investigates the spin-orbit torque and Dzyaloshinskii-Moriya interaction at Ir/Co interfaces, revealing Ir's role as an efficient spin sink and its impact on chiral magnetic properties in heterostructures.
Contribution
It provides new quantitative insights into the spin Hall angle, spin diffusion length, and DMI at Ir/Co interfaces, highlighting Ir's potential in spintronic applications.
Findings
Ir has a spin Hall angle of ~0.01 and a spin diffusion length less than 1 nm.
Ir/Co interface exhibits DMI of approximately 1.4 to 2.2 mJ/m2.
Ir acts as an efficient spin sink layer influencing spin current flow.
Abstract
We studied the spin torque efficiency and the Dzyaloshinskii-Moriya interaction (DMI) of heterostructures that contain interface(s) of Ir and Co. The current-induced shifts of the anomalous Hall loops were used to determine the spin torque efficiency and DMI of [Pt/Co/X] multilayers (X=Ir, Cu) as well as Ir/Co and Pt/Ir/Co reference films. We find the effective spin Hall angle and the spin diffusion length of Ir to be ~0.01 and less than ~1 nm, respectively. The short spin diffusion length and the high conductivity make Ir an efficient spin sink layer. Such spin sink layer can be used to control the flow of spin current in heterostructures and to induce sufficient spin-orbit torque on the magnetic layer. The DMI of Ir and Co interface is found to be in the range of ~1.4 to ~2.2 mJ/m2, similar in magnitude to that of the Pt and Co interface. The Ir/Co and Pt/Co interfaces possess the…
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