Nature Communications (Aug 2023)

Spin-orbit driven superconducting proximity effects in Pt/Nb thin films

  • Machiel Flokstra,
  • Rhea Stewart,
  • Chi-Ming Yim,
  • Christopher Trainer,
  • Peter Wahl,
  • David Miller,
  • Nathan Satchell,
  • Gavin Burnell,
  • Hubertus Luetkens,
  • Thomas Prokscha,
  • Andreas Suter,
  • Elvezio Morenzoni,
  • Irina V. Bobkova,
  • Alexander M. Bobkov,
  • Stephen Lee

DOI
https://doi.org/10.1038/s41467-023-40757-1
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 5

Abstract

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Abstract Manipulating the spin state of thin layers of superconducting material is a promising route to generate dissipationless spin currents in spintronic devices. Approaches typically focus on using thin ferromagnetic elements to perturb the spin state of the superconducting condensate to create spin-triplet correlations. We have investigated simple structures that generate spin-triplet correlations without using ferromagnetic elements. Scanning tunneling spectroscopy and muon-spin rotation are used to probe the local electronic and magnetic properties of our hybrid structures, demonstrating a paramagnetic contribution to the magnetization that partially cancels the Meissner screening. This spin-orbit generated magnetization is shown to derive from the spin of the equal-spin pairs rather than from their orbital motion and is an important development in the field of superconducting spintronics.