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Manipulating antiferromagnetic interfacial states by spin-orbit torques

Enkang Zhang, Yongcheng Deng, Xionghua Liu, Xiaozhi Zhan, Tao Zhu, Kai Wang

2021Physical review. B./Physical review. B38 citationsDOI

Abstract

We systematically investigated the manipulation of antiferromagnetic interfacial states through current-induced spin-orbit torques (SOT) in the $\mathrm{Pt}/\mathrm{Co}/{\mathrm{Ir}}_{25}{\mathrm{Mn}}_{75}(\mathrm{Ir}\text{\ensuremath{-}}\mathrm{Mn})$ system with varying Ir-Mn or Co thickness. The high tunability of antiferromagnetic interfacial states, that the antiferromagnetic interfacial spins gradually switched from upward to downward or vice versa by SOT, was achieved for the samples with ${t}_{\mathrm{IrMn}}\ensuremath{\ge}4\mathrm{nm}$, whereas the switching ability of antiferromagnetic interfacial spins via SOT under a perpendicular field or a longitudinal field was different, which was attributed to the influence from partial canted interfacial spins. Moreover, the interfacial spins of Ir-Mn layer can be also effectively tuned by SOT across Ru layer in the Pt/Co/Ru/Ir-Mn system, where the exchange coupling between Co and Ir-Mn decreased with increasing the thickness of the Ru layer. Our work provides a comprehensive understanding for manipulating antiferromagnetic interfacial states via SOT, which will promote innovative designs for antiferromagnetic spintronic devices.

Topics & Concepts

AntiferromagnetismSpinsCondensed matter physicsCoupling (piping)Spin (aerodynamics)Materials scienceField (mathematics)SpintronicsPhysicsFerromagnetismThermodynamicsPure mathematicsMathematicsMetallurgyMagnetic properties of thin filmsZnO doping and propertiesMultiferroics and related materials
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