Competing itinerant and local spin interactions in kagome metal FeGe

Lebing Chen, Xiaokun Teng, Hengxin Tan, Barry L. Winn, Garrett E. Granroth, Feng Ye, D. H. Yu, R. A. Mole, Bin Gao, Binghai Yan, Ming Yi, Pengcheng Dai

Research output: Contribution to journalArticlepeer-review

5 Scopus citations

Abstract

The combination of a geometrically frustrated lattice, and similar energy scales between degrees of freedom endows two-dimensional Kagome metals with a rich array of quantum phases and renders them ideal for studying strong electron correlations and band topology. The Kagome metal, FeGe is a noted example of this, exhibiting A-type collinear antiferromagnetic (AFM) order at TN ≈ 400 K, then establishes a charge density wave (CDW) phase coupled with AFM ordered moment below TCDW ≈ 110 K, and finally forms a c-axis double cone AFM structure around TCanting ≈ 60 K. Here we use neutron scattering to demonstrate the presence of gapless incommensurate spin excitations associated with the double cone AFM structure of FeGe at temperatures well above TCanting and TCDW that merge into gapped commensurate spin waves from the A-type AFM order. Commensurate spin waves follow the Bose factor and fit the Heisenberg Hamiltonian, while the incommensurate spin excitations, emerging below TN where AFM order is commensurate, start to deviate from the Bose factor around TCDW, and peaks at TCanting. This is consistent with a critical scattering of a second order magnetic phase transition with decreasing temperature. By comparing these results with density functional theory calculations, we conclude that the incommensurate magnetic structure arises from the nested Fermi surfaces of itinerant electrons and the formation of a spin density wave order.

Original languageEnglish
Article number1918
JournalNature Communications
Volume15
Issue number1
DOIs
StatePublished - Dec 2024

Funding

The neutron scattering and single-crystal synthesis work at Rice was supported by US NSF-DMR-2100741 and by the Robert A. Welch Foundation under grant no. C-1839, respectively (P.D.). M.Y. acknowledges support by the U.S. DOE grant No. DE-SC0021421 and the Robert A. Welch Foundation, Grant No. C-2175. A portion of this research used resources at the Spallation Neutron Source, a DOE Office of Science User Facility operated by Oak Ridge National Laboratory. The access of Pelican instrument at ANSTO (P17255) is gratefully acknowledged. B.Y. acknowledges the financial support by the European Research Council (ERC Consolidator Grant “NonlinearTopo”, No. 815869) and the ISF - Personal Research Grant (No. 2932/21). The neutron scattering and single-crystal synthesis work at Rice was supported by US NSF-DMR-2100741 and by the Robert A. Welch Foundation under grant no. C-1839, respectively (P.D.). M.Y. acknowledges support by the U.S. DOE grant No. DE-SC0021421 and the Robert A. Welch Foundation, Grant No. C-2175. A portion of this research used resources at the Spallation Neutron Source, a DOE Office of Science User Facility operated by Oak Ridge National Laboratory. The access of Pelican instrument at ANSTO (P17255) is gratefully acknowledged. B.Y. acknowledges the financial support by the European Research Council (ERC Consolidator Grant “NonlinearTopo”, No. 815869) and the ISF - Personal Research Grant (No. 2932/21).

FundersFunder number
NSF-DMR-2100741
U.S. Department of EnergyC-2175, DE-SC0021421
Welch FoundationC-1839
Office of Science
Oak Ridge National LaboratoryP17255
Iowa Science Foundation2932/21
Engineering Research Centers815869
European Research Council

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