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Tunable topological Dirac surface states and van Hove singularities in kagome metal GdV <sub>6</sub> Sn <sub>6</sub>

Yong Hu, Xianxin Wu, Yongqi Yang, Shunye Gao, N. C. Plumb, Andreas P. Schnyder, Weiwei Xie, Junzhang Ma, M. Shi

2022Science Advances96 citationsDOIOpen Access PDF

Abstract

Transition-metal-based kagome materials at van Hove filling are a rich frontier for the investigation of novel topological electronic states and correlated phenomena. To date, in the idealized two-dimensional kagome lattice, topologically Dirac surface states (TDSSs) have not been unambiguously observed, and the manipulation of TDSSs and van Hove singularities (VHSs) remains largely unexplored. Here, we reveal TDSSs originating from a ℤ 2 bulk topology and identify multiple VHSs near the Fermi level ( E F ) in magnetic kagome material GdV 6 Sn 6 . Using in situ surface potassium deposition, we successfully realize manipulation of the TDSSs and VHSs. The Dirac point of the TDSSs can be tuned from above to below E F , which reverses the chirality of the spin texture at the Fermi surface. These results establish GdV 6 Sn 6 as a fascinating platform for studying the nontrivial topology, magnetism, and correlation effects native to kagome lattices. They also suggest potential application of spintronic devices based on kagome materials.

Topics & Concepts

SpintronicsSurface statesCondensed matter physicsPhysicsTopology (electrical circuits)Van Hove singularityMagnetismFermi levelSpin (aerodynamics)Dirac (video compression format)Topological insulatorSurface (topology)Quantum mechanicsFerromagnetismGeometryMathematicsCombinatoricsElectronThermodynamicsNeutrinoTopological Materials and PhenomenaAdvanced Condensed Matter PhysicsQuantum many-body systems
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