npj Quantum Materials (Jul 2024)

Unveiling the quasiparticle behaviour in the pressure-induced high-T c phase of an iron-chalcogenide superconductor

  • Z. Zajicek,
  • P. Reiss,
  • D. Graf,
  • J. C. A. Prentice,
  • Y. Sadki,
  • A. A. Haghighirad,
  • A. I. Coldea

DOI
https://doi.org/10.1038/s41535-024-00663-1
Journal volume & issue
Vol. 9, no. 1
pp. 1 – 8

Abstract

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Abstract Superconductivity of iron chalocogenides is strongly enhanced under applied pressure yet its underlying pairing mechanism remains elusive. Here, we present a quantum oscillations study up to 45 T in the high-T c phase of tetragonal FeSe0.82S0.18 up to 22 kbar. Under applied pressure, the quasi-two-dimensional multi-band Fermi surface expands and the effective masses remain large, whereas the superconductivity displays a threefold enhancement. Comparing with chemical pressure tuning of FeSe1−x S x , the Fermi surface expands in a similar manner but the effective masses and T c are suppressed. These differences may be attributed to the changes in the density of states influenced by the chalcogen height, which could promote stronger spin fluctuations pairing under pressure. Furthermore, our study also reveals unusual scattering and broadening of superconducting transitions in the high-pressure phase, indicating the presence of a complex pairing mechanism.