Separate tuning of nematicity and spin fluctuations to unravel the origin of superconductivity in FeSe

The interplay of orbital and spin degrees of freedom is the fundamental characteristic in numerous condensed matter phenomena, including high-temperature superconductivity, quantum spin liquids, and topological semimetals. In iron-based superconductors (FeSCs), this causes superconductivity to emerg...

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Veröffentlicht in:npj quantum materials 2020-01, Vol.5 (1), Article 8
Hauptverfasser: Baek, Seung-Ho, Ok, Jong Mok, Kim, Jun Sung, Aswartham, Saicharan, Morozov, Igor, Chareev, Dmitriy, Urata, Takahiro, Tanigaki, Katsumi, Tanabe, Yoichi, Büchner, Bernd, Efremov, Dmitri V.
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Sprache:eng
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Zusammenfassung:The interplay of orbital and spin degrees of freedom is the fundamental characteristic in numerous condensed matter phenomena, including high-temperature superconductivity, quantum spin liquids, and topological semimetals. In iron-based superconductors (FeSCs), this causes superconductivity to emerge in the vicinity of two other instabilities: nematic and magnetic. Unveiling the mutual relationship among nematic order, spin fluctuations, and superconductivity has been a major challenge for research in FeSCs, but it is still controversial. Here, by carrying out 77 Se nuclear magnetic resonance (NMR) measurements on FeSe single crystals, doped by cobalt and sulfur that serve as control parameters, we demonstrate that the superconducting transition temperature T c increases in proportion to the strength of spin fluctuations, while it is independent of the nematic transition temperature T nem . Our observation therefore directly implies that superconductivity in FeSe is essentially driven by spin fluctuations in the intermediate coupling regime, while nematic fluctuations have a marginal impact on T c .
ISSN:2397-4648
2397-4648
DOI:10.1038/s41535-020-0211-y