APL Materials (Sep 2023)

Vector spin Seebeck effect and spin swapping effect in antiferromagnetic insulators with non-collinear spin structure

  • Jinsong Xu,
  • Weiwei Lin,
  • Jiaming He,
  • J.-S. Zhou,
  • Danru Qu,
  • Ssu-Yen Huang,
  • C. L. Chien

DOI
https://doi.org/10.1063/5.0156379
Journal volume & issue
Vol. 11, no. 9
pp. 091102 – 091102-7

Abstract

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Antiferromagnets (AFs) are prospective for next-generation high-density and high-speed spintronic applications due to their negligible stray field and ultrafast spin dynamics, notwithstanding the challenges in detecting and manipulating AF order with no magnetization (M = 0). Among the AFs, non-collinear AFs are of particular interest because of their unique properties arising from the non-collinear spin structure and the small magnetization M. In this work, we describe the recently observed vector spin Seebeck effect in non-collinear LuFeO3, where the magneto-thermovoltage under an in-plane temperature gradient, not previously observed, is consistent with the predicted spin swapping effect. Our results shed light on the importance of the non-collinear spin structure in the emerging spin phenomena in non-collinear AFs and offer a new class of materials for AF spintronics and spin caloritronics.