English

Spin dynamics in a Curie-switch

Mesoscale and Nanoscale Physics 2018-04-25 v1

Abstract

Ferromagnetic resonance properties of F1_1/f/F2_2/AF multilayers, where weakly ferromagnetic spacer f is sandwiched between strongly ferromagnetic layers F1_1 and F2_2, with F1_1 being magnetically soft and F2_2 - magnetically hard due to exchange pinning to antiferromagnetic layer AF, are investigated. Spacer-mediated exchange coupling is shown to strongly affect the resonance fields of both F1_1 and F2_2 layers. Our theoretical calculations as well as measurements show that the key magnetic parameters of the spacer, which govern the ferromagnetic resonance in F1_1/f/F2_2/AF, are the magnetic exchange length (Λ\Lambda), effective saturation magnetization at T=0T=0 (m0)(m_0), and effective Curie temperature (TCeffT_{\text{C}}^{\text{eff}}). The values of these key parameters are deduced from the experimental data for multilayers with f = Nix_xCu100x_{100-x}, for the key ranges in Ni-concentration (x=54÷70x=54\div70 at. %) and spacer thickness (d=3÷6d=3\div 6 nm). The results obtained provide a deeper insight into thermally-controlled spin precession and switching in magnetic nanostructures, with potential applications in spin-based oscillators and memory devices.

Keywords

Cite

@article{arxiv.1506.02928,
  title  = {Spin dynamics in a Curie-switch},
  author = {A. F. Kravets and A. I. Tovstolytkin and Yu. I. Dzhezherya and D. M. Polishchuk and I. M. Kozak and V. Korenivski},
  journal= {arXiv preprint arXiv:1506.02928},
  year   = {2018}
}

Comments

9 pages, 7 figures, 24 references

R2 v1 2026-06-22T09:50:11.457Z