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Nonlinear Damping and Nonlinear Phase Shift of Intense Spin Waves in Screened Ferrite Films

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Abstract

We analyze for the first time nonlinear damping and nonlinear phase shift of intense surface spin waves in screened yttrium–iron garnet films. Nonlinear damping coefficients are determined using the phenomenological model of spin wave propagation in such films. It is found that nonlinear phase shift in screened films is a weak effect as compared with free films and amounts to tens of degrees. At the same time, nonlinear damping in screened films is comparable with the corresponding value for free films. It is shown that for micrometer-thick films, the losses introduced upon an increase of power to 15 dBm become larger by 2–5 dB.

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Authors and Affiliations

  1. St. Petersburg State Electrotechnical University LETI, 197376, St. Petersburg, Russia

    A. E. Kozin & A. B. Ustinov

  2. OOO Magneton, 194223, St. Petersburg, Russia

    A. E. Kozin

Authors
  1. A. E. Kozin
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  2. A. B. Ustinov
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Correspondence to A. B. Ustinov.

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Translated by N. Wadhwa

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Kozin, A.E., Ustinov, A.B. Nonlinear Damping and Nonlinear Phase Shift of Intense Spin Waves in Screened Ferrite Films. Tech. Phys. 64, 265–269 (2019). https://doi.org/10.1134/S1063784219020099

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