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2 PublikationenEvidence for an Fulde-Ferrell-Larkin-Ovchinnikov State with Segmented Vortices in the BCS-BEC-Crossover Superconductor FeSe
Kasahara, S.; Sato, Y.; Licciardello, S.; Culo, M.; Arsenijevic, S.; Ottenbros, T.; Tominaga, T.; Böker, J.; Eremin, I.; Shibauchi, T.; Wosnitza, J.; Hussey, N. E.; Matsuda, Y.
Abstract
We present resistivity and thermal-conductivity measurements of superconducting FeSe in intense magnetic fields up to 35 Tapplied parallel to the ab plane. At low temperatures, the upper critical field μ0Hab
c2 shows an anomalous upturn, while thermal conductivity exhibits a discontinuous jump at μ0H* ≈ 24 T well below μ0Hab
c2, indicating a first-order phase transition in the superconducting state. This demonstrates the emergence of a distinct field-induced superconducting phase. Moreover, the broad resistive transition at high temperatures abruptly becomes sharp upon entering the high-field phase, indicating a dramatic change of the magnetic-flux properties.We attribute the high-field phase to the Fulde-Ferrell-Larkin-Ovchinnikov (FFLO) state, where the formation of planar nodes gives rise to a segmentation of the flux-line lattice. We point out that strongly orbital-dependent pairing as well as spin-orbit interactions, the multiband nature, and the extremely small Fermi energy are important for the formation of the FFLO state in FeSe.
Beteiligte Forschungsanlagen
- Hochfeld-Magnetlabor (HLD)
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Physical Review Letters 124(2020), 107001
DOI: 10.1103/PhysRevLett.124.107001
Cited 64 times in Scopus -
WWW-Beitrag
arXiv:1911.08237 [cond-mat.supr-con]: https://arxiv.org/abs/1911.08237
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Permalink: https://www.hzdr.de/publications/Publ-30814