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Coexistence of superconductivity and ferromagnetism in URhGe

Author

Listed:
  • Dai Aoki

    (CEA, SPSMS)

  • Andrew Huxley

    (CEA, SPSMS)

  • Eric Ressouche

    (CEA, SPSMS)

  • Daniel Braithwaite

    (CEA, SPSMS)

  • Jacques Flouquet

    (CEA, SPSMS)

  • Jean-Pascal Brison

    (CNRS Centre de Recherche sur les Très Basses Températures)

  • Elsa Lhotel

    (CNRS Centre de Recherche sur les Très Basses Températures)

  • Carley Paulsen

    (CNRS Centre de Recherche sur les Très Basses Températures)

Abstract

The discovery1 of superconductivity at high pressure (albeit over a restricted range) in the ferromagnetic material UGe2 raised the possibility that bulk superconductivity might be found in other ferromagnets. The exact symmetry of the paired state and the dominant mechanism responsible for the pairing, however, remain unidentified. Meanwhile, the conjecture that superconductivity could occur more generally in ferromagnets has been fuelled by the recent observation of a low-temperature transition that suggests an onset of superconductivity in high-quality crystals of the itinerant-ferromagnet ZrZn2 (ref. 2), although the thermodynamic signature of this transition could not be detected. Here we show that the ferromagnet URhGe is superconducting at ambient pressure. In this case, we find the thermodynamic signature of the transition—its form is consistent with a superconducting pairing of a spin-triplet type, although further testing with cleaner samples is needed to confirm this. The combination of superconductivity and ferromagnetism may thus be more common and consequently more important than hitherto realized.

Suggested Citation

  • Dai Aoki & Andrew Huxley & Eric Ressouche & Daniel Braithwaite & Jacques Flouquet & Jean-Pascal Brison & Elsa Lhotel & Carley Paulsen, 2001. "Coexistence of superconductivity and ferromagnetism in URhGe," Nature, Nature, vol. 413(6856), pages 613-616, October.
    • Handle: RePEc:nat:nature:v:413:y:2001:i:6856:d:10.1038_35098048
    DOI: 10.1038/35098048
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    Cited by:

    1. He Wang & Yanzhao Liu & Ming Gong & Hua Jiang & Xiaoyue Gao & Wenlong Ma & Jiawei Luo & Haoran Ji & Jun Ge & Shuang Jia & Peng Gao & Ziqiang Wang & X. C. Xie & Jian Wang, 2023. "Emergent superconductivity in topological-kagome-magnet/metal heterostructures," Nature Communications, Nature, vol. 14(1), pages 1-8, December.

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