npj Quantum Materials (Aug 2022)

Ubiquitous enhancement of nematic fluctuations across the phase diagram of iron based superconductors probed by the Nernst effect

  • Christoph Wuttke,
  • Federico Caglieris,
  • Steffen Sykora,
  • Frank Steckel,
  • Xiaochen Hong,
  • Sheng Ran,
  • Seunghyun Khim,
  • Rhea Kappenberger,
  • Sergey L. Bud’ko,
  • Paul C. Canfield,
  • Sabine Wurmehl,
  • Saicharan Aswartham,
  • Bernd Büchner,
  • Christian Hess

DOI
https://doi.org/10.1038/s41535-022-00487-x
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 10

Abstract

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Abstract The role of nematic fluctuations for unconventional superconductivity has been the subject of intense discussions for many years. In iron-based superconductors, the most established probe for electronic-nematic fluctuations, i.e. the elastoresistivity seems to imply that superconductivity is reinforced by electronic-nematic fluctuations, since the elastoresistivity amplitude peaks at or close to optimal T c . However, on the over-doped side of the superconducting dome, the diminishing elastoresistivity suggests a negligible importance in the mechanism of superconductivity. Here we introduce the Nernst coefficient as a genuine probe for electronic nematic fluctuations, and we show that the amplitude of the Nernst coefficient tracks the superconducting dome of two prototype families of iron-based superconductors, namely Rh-doped BaFe2As2 and Co-doped LaFeAsO. Our data thus provide fresh evidence that in these systems, nematic fluctuations foster the superconductivity throughout the phase diagram.