NPG Asia Materials (Apr 2024)

Giant gate modulation of antiferromagnetic spin reversal by the magnetoelectric effect

  • Kakeru Ujimoto,
  • Hiroki Sameshima,
  • Kentaro Toyoki,
  • Takahiro Moriyama,
  • Kohji Nakamura,
  • Yoshinori Kotani,
  • Motohiro Suzuki,
  • Ion Iino,
  • Naomi Kawamura,
  • Ryoichi Nakatani,
  • Yu Shiratsuchi

DOI
https://doi.org/10.1038/s41427-024-00541-z
Journal volume & issue
Vol. 16, no. 1
pp. 1 – 11

Abstract

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Abstract In this study, using the Pt/Cr2O3/Pt epitaxial trilayer, we demonstrate the giant voltage modulation of the antiferromagnetic spin reversal and the voltage-induced 180° switching of the Néel vector in maintaining a permanent magnetic field. We obtained a significant modulation efficiency of the switching field, Δμ 0 H SW/ΔV (Δμ 0 H SW/ΔE), reaching a maximum of −500 mT/V (−4.80 T nm/V); this value was more than 50 times greater than that of the ferromagnetic-based counterparts. From the temperature dependence of the modulation efficiency, X-ray magnetic circular dichroism measurements and first-principles calculations, we showed that the origin of the giant modulation efficiency relied on the electric field modulation of the net magnetization due to the magnetoelectric effect. From the first-principles calculation and the thickness effect on the offset electric field, we found that the interfacial magnetoelectric effect emerged. Our demonstration reveals the energy-efficient and widely applicable operation of an antiferromagnetic spin based on a mechanism distinct from magnetic anisotropy control.