Modern Electronic Materials (Dec 2022)

Magnetoelectric effect in three-layered gradient LiNbO3/Ni/Metglas composites

  • Viktor V. Kuts,
  • Andrei V. Turutin,
  • Aleksandr M. Kislyuk,
  • Ilya V. Kubasov,
  • Roman N. Zhukov,
  • Alexander A. Temirov,
  • Mikhail D. Malinkovich,
  • Nikolai A. Sobolev,
  • Yuri N. Parkhomenko

DOI
https://doi.org/10.3897/j.moem.8.4.98951
Journal volume & issue
Vol. 8, no. 4
pp. 141 – 147

Abstract

Read online Read online Read online

The effect of annealing in a permanent magnetic field on the magnitude of magnetoelectric coefficient in three-layered gradient magnetoelectric LiNbO3/Ni/Metglas composites has been studied. A method of electrochemical nickel deposition on bidomain lithium niobate crystals has been demonstrated. We show that the optimum annealing temperature in a permanent magnetic field for the generation of the highest remanence in the Ni layer is 350 °C. The specimens annealed at this temperature exhibit the greatest shift of the magnetoelectric coefficient dependence on external magnetic field magnitude relative to the value Hdc = 0. The quasi-static magnetoelectric coefficient in the absence of an external magnetic field proves to be 1.2 V/(cm ∙ Oe). The highest magnetoelectric coefficient that has been achieved at a bending structure resonance frequency of 278 Hz proves to be 199.3 V/(cm ∙ Oe) without application of an external magnetic field. The experimental magnetoelectric coefficient figures for three-layered gradient LiNbO3/Ni/Metglas composites are not inferior to those for most magnetoelectric composite materials reported earlier.