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Optical detection of the density-wave instability in the kagome metal KV3Sb5

Ece Uykur, Brenden R. Ortiz, Stephen D. Wilson, Martin Dressel, Alexander A. Tsirlin

2022npj Quantum Materials99 citationsDOIOpen Access PDF

Abstract

Abstract Coexisting density-wave and superconducting states along with the large anomalous Hall effect in the absence of local magnetism remain intriguing and enigmatic features of the AV 3 Sb 5 kagome metals (A = K, Rb, Cs). Here, we demonstrate via optical spectroscopy and density-functional calculations that low-energy dynamics of KV 3 Sb 5 is characterized by unconventional localized carriers, which are strongly renormalized across the density-wave transition and indicative of electronic correlations. Strong phonon anomalies are prominent not only below the density-wave transition, but also at high temperatures, suggesting an intricate interplay of phonons with the underlying electronic structure. We further propose the star-of-David and tri-hexagon (inverse star-of-David) configurations for the density-wave order in KV 3 Sb 5 . These configurations are strongly reminiscent of p -wave states expected in the Hubbard model on the kagome lattice at the filling level of the van Hove singularity. The proximity to this regime should have intriguing and far-reaching implications for the physics of KV 3 Sb 5 and related materials.

Topics & Concepts

Van Hove singularityCondensed matter physicsPhysicsDensity wave theoryDensity of statesSuperconductivityPhononCharge density waveSpin density waveMagnetismLattice (music)InstabilityElectronQuantum mechanicsFermi levelAcousticsTopological Materials and PhenomenaAdvanced Condensed Matter PhysicsRare-earth and actinide compounds
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