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Origin of Strong Two-Magnon Scattering in Heavy-Metal/Ferromagnet/Oxide Heterostructures

Lijun Zhu, Lujun Zhu, Daniel C. Ralph, R. A. Buhrman

2020Physical Review Applied44 citationsDOIOpen Access PDF

Abstract

We experimentally investigate the origin of two-magnon scattering (TMS) in heavy-metal (HM)/ferromagnet (FM)/oxide heterostructures (FM = $\mathrm{Co}$, ${\mathrm{Ni}}_{81}{\mathrm{Fe}}_{19}$, or ${\mathrm{Fe}}_{60}{\mathrm{Co}}_{20}{\mathrm{B}}_{20}$) by varying the materials located above and below the FM layer. We show that strong TMS in HM/FM/oxide systems arises primarily at the HM/FM interface and increases with the strength of the interfacial spin-orbit coupling and magnetic roughness at this interface. TMS at the FM/oxide interface is relatively weak, even in systems where spin-orbit coupling at this interface generates strong interfacial magnetic anisotropy. We also suggest that the spin-current-induced excitation of nonuniform short-wavelength magnons at the HM/FM interface may function as a mechanism of spin memory loss for the spin-orbit torque exerted on the uniform mode.

Topics & Concepts

Condensed matter physicsMagnonFerromagnetismHeterojunctionScatteringOxideCoupling (piping)MetalMaterials scienceSpin (aerodynamics)PhysicsAnisotropyOpticsThermodynamicsMetallurgyMagnetic properties of thin filmsMagnetic and transport properties of perovskites and related materialsZnO doping and properties
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