Scientific Reports (Feb 2022)

Spin-glass transition in the spin–orbit-entangled J eff = 0 Mott insulating double-perovskite ruthenate

  • Hayato Yatsuzuka,
  • Yuya Haraguchi,
  • Akira Matsuo,
  • Koichi Kindo,
  • Hiroko Aruga Katori

DOI
https://doi.org/10.1038/s41598-022-06467-2
Journal volume & issue
Vol. 12, no. 1
pp. 1 – 6

Abstract

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Abstract We have successfully synthesized new Ru4+ double perovskite oxides SrLaInRuO6 and SrLaGaRuO6, which are expected to be a spin–orbit coupled J eff = 0 Mott insulating ground state. Their magnetic susceptibility is much significant than that expected for a single Ru4+ ion for which exchange coupling with other ions is negligible. Their isothermal magnetization process suggests that there are about 20 percent isolated spins. These origins would be the Ru3+/Ru5+ magnetic defects, while the regular Ru4+ sites remain nonmagnetic. Moreover, SrLaGaRuO6 shows a spin-glass-like magnetic transition at low temperatures, probably caused by isolated spins. The observed spin-glass can be interpreted by the analogy of a dilute magnetic alloy, which can be seen as a precursor to the mobile J eff = 1 exciton as a dispersive mode as predicted.