npj Quantum Materials (May 2024)

Large anomalous Hall effect in spin fluctuating devil’s staircase

  • Naoki Abe,
  • Yuya Hano,
  • Hiroaki Ishizuka,
  • Yusuke Kozuka,
  • Terumasa Tadano,
  • Yoshihiro Tsujimoto,
  • Kazunari Yamaura,
  • Shintaro Ishiwata,
  • Jun Fujioka

DOI
https://doi.org/10.1038/s41535-024-00653-3
Journal volume & issue
Vol. 9, no. 1
pp. 1 – 8

Abstract

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Abstract Electrons in metals can show a giant anomalous Hall effect (AHE) when interacting with characteristic spin texture. The AHE has been discussed in terms of scalar-spin-chirality (SSC) in long-range-ordered noncollinear spin textures typified by Skyrmion. The SSC becomes effective even in the paramagnetic state with thermal fluctuations, but the resultant AHE has been limited to be very small. Here, we report the observation of large AHE caused by the spin fluctuation near the devil’s staircase transition in a collinear antiferromagnetic metal SrCo6O11. The AHE is prominent near and above the transition temperature at moderate magnetic fields, where the anomalous Hall angle becomes the highest level among known oxide collinear ferromagnets/antiferromagnets (>2%). Furthermore, the anomalous Hall conductivity is quadratically scaled to the conductivity. These results imply that the thermally induced solitonic spin defects inherent to the devil’s staircase transition promote SSC-induced skew scattering.