2026-02-12 京都大学
<関連情報>
- https://www.kyoto-u.ac.jp/ja/research-news/2026-02-12-1
- https://journals.aps.org/prl/abstract/10.1103/sgcz-9rc7
Sr₂RuO₄の超伝導対称性を精密に探るミューオンナイトシフト Muon Knight Shift as a Precise Probe of the Superconducting Symmetry of Sr2RuO4Hisakazu
Matsuki, Rustem Khasanov, Jonas A. Krieger, Thomas J. Hicken, Kosuke Yuchi, Jake S. Bobowski, Giordano Mattoni, Atsutoshi Ikeda, Ryutaro Okuma et al.
Physical Review Letters Published: 9 February, 2026
DOI: https://doi.org/10.1103/sgcz-9rc7
Abstract
Muon spin rotation (μSR) measurements of internal magnetic field shifts, known as the muon Knight shift, are used for determining pairing symmetries in superconductors. While this technique has been especially effective for -electron-based heavy-fermion superconductors, it remains challenging in -electron-based superconductors such as Sr2RuO4, where the Knight shift is intrinsically small. Here, we report high-precision muon Knight shift measurements of superconducting Sr2RuO4. We observe that using multiple pieces of crystals, a common practice in μSR measurements, induces a substantial paramagnetic shift below the superconducting transition temperature, Tc, when a weak magnetic field is applied. We attribute such an unresolved paramagnetic shift to stray fields generated by neighboring diamagnetic crystals. To avoid this, one piece of crystal was used in this Letter. We experimentally determine the muon Knight shift of Sr2RuO4 in the normal state to be −116±7 ppm. By combining the observed muon Knight shift with independently determined bulk magnetization data from the same crystal used in μSR and carefully separating various contributions to the shift, we confirm a significant reduction in the spin Knight shift below Tc, consistent with spin-singlet-like pairing. This result constitutes the precise muon Knight shift measurement in a -electron-based superconductor. Our results highlight the potential of μSR as a powerful complementary technique to the established method of nuclear magnetic resonance for probing the spin susceptibility in superconductors.
