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Numerical Simulation of Magnetoresonance Absorption for Multilayered Co/Cu Nanostructures in the Millimeter Waveband

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Abstract

The numerical simulation of the Ferromagnetic Resonance (FMR) absorption in the millimeter waveband has been performed for magnetic multilayered nanostructures. The model taking into account a random bilinear exchange interaction between layers was applied for the theoretical approach elaboration. Results of the simulation are in good agreement with experimental data registered for samples of nanostructure Co/Cu with buffer layer Fe in the frequency band 20-37 GHz. The explanation of the origin of unexpectedly broad magnetoresonance peaks formed in specimen under study is suggested.

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Authors and Affiliations

  1. Math and Physics Department, Belgorod State Agricultural Academy, 1 Vavilov St., Maysky, Belgorod, 308503, Russia

    A. M. Zabolotskiy

  2. National Scientific Center “Kharkov Institute of Physics and Technology” NAS of Ukraine, 1 Akademicheskaya, St., Kharkov, 61108, Ukraine

    D. P. Belozorov

  3. Institute of Radiophysics and Electronics NAS of Ukraine, 12 Ac. Proskura St., Kharkov, 310085, Ukraine; e-mail

    S. I. Tarapov

Authors
  1. A. M. Zabolotskiy
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  2. D. P. Belozorov
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  3. S. I. Tarapov
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Zabolotskiy, A.M., Belozorov, D.P. & Tarapov, S.I. Numerical Simulation of Magnetoresonance Absorption for Multilayered Co/Cu Nanostructures in the Millimeter Waveband. International Journal of Infrared and Millimeter Waves 25, 1431–1438 (2004). https://doi.org/10.1023/B:IJIM.0000047435.87575.5b

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  • DOI: https://doi.org/10.1023/B:IJIM.0000047435.87575.5b

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