Physical Review Research (Jan 2023)

Electronic correlations and universal long-range scaling in kagome metals

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

DOI
https://doi.org/10.1103/PhysRevResearch.5.L012008
Journal volume & issue
Vol. 5, no. 1
p. L012008

Abstract

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We investigate the real-space profile of effective Coulomb interactions in correlated kagome materials. By particularizing to KV_{3}Sb_{5}, Co_{3}Sn_{2}S_{2}, FeSn, and Ni_{3}In, 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.