Physical Review Research (Sep 2020)

Ferromagnetic kinetic exchange interaction in magnetic insulators

  • Zhishuo Huang,
  • Dan Liu,
  • Akseli Mansikkamäki,
  • Veacheslav Vieru,
  • Naoya Iwahara,
  • Liviu F. Chibotaru

DOI
https://doi.org/10.1103/PhysRevResearch.2.033430
Journal volume & issue
Vol. 2, no. 3
p. 033430

Abstract

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The superexchange theory predicts dominant antiferromagnetic kinetic interaction when the orbitals accommodating magnetic electrons are covalently bonded through diamagnetic bridging atoms or groups. Here we show that explicit consideration of magnetic and (leading) bridging orbitals, together with the electron transfer between the former, reveals a strong ferromagnetic kinetic exchange contribution. First-principles calculations show that it is comparable in strength with antiferromagnetic superexchange in a number of magnetic materials with diamagnetic metal bridges. In particular, it is responsible for a very large ferromagnetic coupling (−10 meV) between the iron ions in a Fe^{3+}-Co^{3+}-Fe^{3+} complex. Furthermore, we find that the ferromagnetic exchange interaction turns into antiferromagnetic by substituting the diamagnetic bridge with magnetic one. The phenomenology is observed in two series of materials, supporting the significance of the ferromagnetic kinetic exchange mechanism.