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Nonlinear Dynamics and Kinetics of Magnons

  • V. S. L’vov
Conference paper
Part of the Research Reports in Physics book series (RESREPORTS)

Abstract

A review on nonlinear spin waves (magnons) is presented. The corresponding physical models in magnetic dielectrics are analyzed. The parametric dynamics and kinetics of magnons are described in detail.

Keywords

Spin Wave Parametric Excitation Monochromatic Wave Collective Oscillation Alternate Magnetic Field 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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References

  1. 1.
    V.S. L’vov. Nonlinear Spin Waves. Moscow, Nauka, 1987.Google Scholar
  2. 2.
    V.E. Zakharov, V.S. L’vov, S.S. Starobinets. Instability of monochromatic spin waves. FFT, 1969, 11, 2923–2332.Google Scholar
  3. 3.
    V.E. Zakharov, V.S. L’vov, S.S.Starobinets. New mechanism of spin wave amplitude limitation in parallel pumping FFT, 1969, 11, 2047–2055.Google Scholar
  4. 4.
    H. Suhl. Theory of ferromagnetic resonance at high signal power. Phys. Chenusol., 1957, 1, 209–227.ADSGoogle Scholar
  5. 5.
    F.R. Morgenthaler. Parallei-pumped magnon instabilities in a two-sublattic ferromagnetic crystal. J. Appl. Phys., 1960, 31, Suppl. 95S–97S.ADSCrossRefGoogle Scholar
  6. 6.
    V.E. Zakharov, V.S. L’vov, S.S. Starobinets. Stationary nonlinear theory of parametric wave excitation. Soviet Phys.-JETP, 1970, 59, 1200–1214.Google Scholar
  7. 7.
    V.E. Zakharov, V.S. L’vov, S.S. Starobinets. Turbulence of spin waves above the threshold of parametric excitation. Soviet Phys.-Uspekhi, 1974, 114, 4, 609–654.ADSGoogle Scholar
  8. 8.
    V.S. L’vov. Solutions and nonlinear effects in parametrically excitation of spin waves. In: Solitons, ed. by S.E. Trullinger, V.E. Zakharov and V.L. Pokrovskii, Elsevier, B.V., 1986.Google Scholar
  9. 9.
    V.S. L’vov: L.A.Prozorova. Spin Waves and Magnetic Excitations, p.1, ed. by A.S. Borovik-Romanov and S. K.Sinka, Elsevier B.V., 1988.Google Scholar
  10. 10.
    L.A. Prozorova, A.I. Smirnov. Nonlinear high-frequency properties of yttrium iron garnet at low temperatures. Soviet Phys.-JETP, 1974, 69, 2(8), 758–763.Google Scholar
  11. 11.
    G.A. Melkov, I.V. Krutsenko. Mechanisms of amplitude limitation of the parametrically excited spin waves. Soviet Phys.-JETP, 72, 2, 564–575.Google Scholar
  12. 12.
    B.B. Zautkin, V.S. L’vov, E.V. Podivilov. Distribution transformation in parametric resonance in ferrites. Soviet Phys.-JETP, (in press).Google Scholar
  13. 13.
    B.B. Zautkin, B.S. L’vov, S.S. Starobinets. On the resonance effects in the systemGoogle Scholar
  14. of parametric spin waves. Soviet Phys.-JETP, 1972, 63, 182–190.Google Scholar
  15. 14.
    B.I. Orel, S.S. Starobi nets. Radiofrequency magnetic susceptibility and the collective resonance of magnons in the parallel pumping. Soviet Phys.-JETP, 68, 1, 317–325.Google Scholar
  16. 15.
    V.V. Zautkin, V.S. L’vov, B.I. Orel, S.S. Starobinets. Large-amplitude collective oscillations of magnons and the double parametric resonance. Soviet Phys.-JETP, 1977, 72, 272–284.Google Scholar
  17. 16.
    T.S. Hartwick, E.R. Peressini, M.T. Weiss. Suppression of subsidiary absorption in ferrites by modulation techniques. Phys. Rev. Lett., 1961, 6, 176–177.ADSCrossRefGoogle Scholar
  18. 17.
    J.A. Monosov. Nonlinear Ferromagnetic Resonance. Moscow, Nauka, 1971.Google Scholar
  19. 18.
    V.S. L’vov, S.L. Moosher, S.S. Starobinets. The theory of magnetization self-oscillations in the parametric excitation of spin waves. Soviet Phys.-JETP, 1973, 64, 1084–1097.Google Scholar
  20. 19.
    V.L. Grankin, V.S. L’vov, V.I. Motorin, S.L. Moosher. Secondary turbulence of the parametrically excited spin waves. Soviet Phys.-JETP, 1981, 81, 2(8), 757–768.Google Scholar
  21. 20.
    V.V. Zautkin, S.S. Starobinets. Magnetization self-oscillations in the parallel pumping of spin waves. Soviet Phys.-JETP, 1974, 16, 3, 678–686.Google Scholar
  22. 21.
    V.S. L’vov. On damping of the monochromatic wave in nonlinear medium. Soviet Phys.- JETP, 1975, 68, 1, 308–316.MathSciNetGoogle Scholar
  23. 22.
    V.S. Lutovinov, G.E. Fal’kovich, V.B. Cherepanov. Nonequilibrium distribution of quasi-particles in the parametric excitation in antiferromagnets with a decay spectrum. Soviet Phys.-JETP, 1986, 90, 1781–1794.Google Scholar
  24. 23.
    B.J. Kostyuzhansky, L.A. Prosorova, L.E. Svistov. Studies on the electromagnetic emission of magnons parametrically excited in antiferromagnets. Soviet Phys.-JETP, 1984, 86, 1101–1116.Google Scholar
  25. 24.
    A.V. Lavrinenko, V.S. L’vov, G.A. Melkov, V.B. Cherepanov. Kinetic instability of a strongly nonequilibrium system of spin waves and transformation of ferrite emission. Soviet Phys.-JETP, 1981, 81, 1022–1036.Google Scholar
  26. 25.
    V.S. L’vov, V.B. Cherepanov. Nonlinear theory of kinetic excitation of waves. Soviet Phys.-JETP, 1981, 81, 1406–1422.Google Scholar
  27. 26.
    A.Yu. Taranenko, V.B. Cherepanov. Energy absorption in ferrites above the threshold of kinetic instability. Soviet Phys.-JETP (in press).Google Scholar
  28. 27.
    V.S. Lutvinov, G.A. Melkov, A.Yu. Taranenko, V.B. Cherepanov. Kinetic instability of first-order spin waves in ferrites. Soviet Phys.-JETP (in press).Google Scholar

Copyright information

© Springer-Verlag Berlin, Heidelberg 1990

Authors and Affiliations

  • V. S. L’vov
    • 1
  1. 1.Institute of Automation and ElectrometrySiberian Branch of USSR Academy of SciencesNovosibirskUSSR

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