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Paper detail

Damped Dirac magnon in a metallic kagome antiferromagnet FeSn

The kagome lattice is a fertile platform to explore topological excitations with both Fermi-Dirac and Bose-Einstein statistics. While relativistic Dirac Fermions and flat-bands have been discovered in the electronic structure of kagome metals, the spin excitations have received less attention. Here we report inelastic neutron scattering studies of the prototypical kagome magnetic metal FeSn. The spectra display well-defined spin waves extending up to 120 meV. Above this energy, the spin waves become progressively broadened, reflecting interactions with the Stoner continuum. Using linear spin wave theory, we determine an effective spin Hamiltonian that reproduces the measured dispersion. This analysis indicates that the Dirac magnon at the K-point remarkably occurs on the brink of a region where well-defined spin waves become unobservable. Our results emphasize the influential role of itinerant carriers on the topological spin excitations of metallic kagome magnets.

preprint2021arXivOpen access
Seung-Hwan DoKoji KanekoRyoichi KajimotoKazuya KamazawaMatthew B. StoneShinichi ItohTakatsugu MasudaGerman D. SamolyukElbio DagottoWilliam R. MeierBrian C. SalesHu MiaoAndrew D. Christianson
cond-mat.str-el
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Authors

Seung-Hwan DoKoji KanekoRyoichi KajimotoKazuya KamazawaMatthew B. StoneShinichi ItohTakatsugu MasudaGerman D. SamolyukElbio DagottoWilliam R. MeierBrian C. SalesHu MiaoAndrew D. Christianson

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