Physical Review X (Sep 2022)

Direct X-Ray Detection of the Spin Hall Effect in CuBi

  • Sandra Ruiz-Gómez,
  • Rubén Guerrero,
  • Muhammad W. Khaliq,
  • Claudia Fernández-González,
  • Jordi Prat,
  • Andrés Valera,
  • Simone Finizio,
  • Paolo Perna,
  • Julio Camarero,
  • Lucas Pérez,
  • Lucía Aballe,
  • Michael Foerster

DOI
https://doi.org/10.1103/PhysRevX.12.031032
Journal volume & issue
Vol. 12, no. 3
p. 031032

Abstract

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The spin Hall effect and the inverse spin Hall effect are important spin-charge conversion mechanisms. The direct spin Hall effect induces a surface spin accumulation from a transverse charge current due to spin-orbit coupling even in nonmagnetic conductors. However, most detection schemes involve additional interfaces, leading to large scattering in reported data. Here we perform interface-free x-ray spectroscopy measurements at the Cu L_{3,2} absorption edges of highly Bi-doped Cu (Cu_{95}Bi_{5}). The detected x-ray magnetic circular dichroism signal corresponds to an induced magnetic moment of (2.2±0.5)×10^{−12} μ_{B} A^{−1} cm^{2} per Cu atom averaged over the probing depth, which is of the same order of magnitude as found for Pt measured by magneto-optics. The results highlight the importance of interface-free measurements to assess material parameters and the potential of CuBi for spin-charge conversion applications.