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Large Damping Enhancement in Dirac‐Semimetal–Ferromagnetic‐Metal Layered Structures Caused by Topological Surface States

Jinjun Ding, Chuan‐Pu Liu, Yuejie Zhang, Vijaysankar Kalappattil, Rui Yu, Uppalaiah Erugu, Jinke Tang, Haifeng Ding, Hua Chen, Mingzhong Wu

2021Advanced Functional Materials27 citationsDOIOpen Access PDF

Abstract

Abstract This article reports damping enhancement in a ferromagnetic NiFe thin film due to an adjacent α‐Sn thin film. Ferromagnetic resonance studies show that an α‐Sn film separated from a NiFe film by an ultrathin Ag spacer can cause an extra damping in the NiFe film that is three times bigger than the intrinsic damping of the NiFe film. Such an extra damping is absent in structures where the α‐Sn film interfaces directly with a NiFe film, or is replaced by a β‐Sn film. The data suggest that the extra damping is associated with topologically nontrivial surface states in the topological Dirac semimetal phase of the α‐Sn film. This work suggests that, like topological insulators, topological Dirac semimetal α‐Sn may have promising applications in spintronics.

Topics & Concepts

Materials scienceSpintronicsDirac (video compression format)SemimetalCondensed matter physicsFerromagnetismSurface statesTopological insulatorThin filmSurface (topology)Ferromagnetic resonanceMetalTopology (electrical circuits)NanotechnologyPhysicsOptoelectronicsMagnetic fieldBand gapQuantum mechanicsMagnetizationMetallurgyMathematicsNeutrinoCombinatoricsGeometryTopological Materials and PhenomenaMagnetic properties of thin filmsGraphene research and applications
Large Damping Enhancement in Dirac‐Semimetal–Ferromagnetic‐Metal Layered Structures Caused by Topological Surface States | Litcius