Nature Communications (Jul 2024)

Discovery of a long-ranged charge order with 1/4 Ge1-dimerization in an antiferromagnetic Kagome metal

  • Ziyuan Chen,
  • Xueliang Wu,
  • Shiming Zhou,
  • Jiakang Zhang,
  • Ruotong Yin,
  • Yuanji Li,
  • Mingzhe Li,
  • Jiashuo Gong,
  • Mingquan He,
  • Yisheng Chai,
  • Xiaoyuan Zhou,
  • Yilin Wang,
  • Aifeng Wang,
  • Ya-Jun Yan,
  • Dong-Lai Feng

DOI
https://doi.org/10.1038/s41467-024-50661-x
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 9

Abstract

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Abstract Exotic quantum states arise from the interplay of various degrees of freedom such as charge, spin, orbital, and lattice. Recently, a short-ranged charge order (CO) was discovered deep inside the antiferromagnetic phase of Kagome magnet FeGe, exhibiting close relationships with magnetism. Despite extensive investigations, the CO mechanism remains controversial, mainly because the short-ranged behavior hinders precise identification of CO superstructure. Here, combining multiple experimental techniques, we report the observation of a long-ranged CO in high-quality FeGe samples, which is accompanied with a first-order structural transition. With these high-quality samples, the distorted 2 × 2 × 2 CO superstructure is characterized by a strong dimerization along the c-axis of 1/4 of Ge1-sites in Fe3Ge layers, and in response to that, the 2 × 2 in-plane charge modulations are induced. Moreover, we show that the previously reported short-ranged CO might be related to large occupational disorders at Ge1-site, which upsets the equilibrium of the CO state and the ideal 1 × 1 × 1 structure with very close energies, inducing nanoscale coexistence of these two phases. Our study provides important clues for further understanding the CO properties in FeGe and helps to identify the CO mechanism.