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Electronic correlations and universal long-range scaling in kagome metals

Domenico Di Sante, Bongjae Kim, Werner Hanke, Tim O. Wehling, Cesare Franchini, Ronny Thomale, Giorgio Sangiovanni

2023Physical Review Research28 citationsDOIOpen Access PDF

Abstract

We investigate the real-space profile of effective Coulomb interactions in correlated kagome materials. By particularizing to KV3Sb5, Co3Sn2S2, FeSn, and Ni3In, we analyze representative cases that exhibit a large span of correlation-mediated phenomena, and contrast them to prototypical perovskite transition metal oxides. From our constrained random phase approximation studies we find that the on-site interaction strength in kagome metals not only depends on the screening processes at high energy, but also on the low-energy hybridization profile of the electronic density of states. Our results indicate that rescaled by the on-site interaction amplitude, all kagome metals exhibit a universal long-range Coulomb behavior.

Topics & Concepts

CoulombCondensed matter physicsScalingPhysicsPhase transitionStatistical physicsQuantum mechanicsMathematicsElectronGeometryAdvanced Condensed Matter PhysicsElectronic and Structural Properties of OxidesTopological Materials and Phenomena
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