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Wave kinetics of random fibre lasers

Author

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  • D V. Churkin

    (Aston Institute of Photonic Technologies, Aston University
    Institute of Automation and Electrometry, Siberian Branch of the Russian Academy of Sciences
    Novosibirsk State University)

  • I V. Kolokolov

    (Landau Institute for Theoretical Physics, Russian Academy of Sciences
    Moscow Institute of Physics and Technology)

  • E V. Podivilov

    (Institute of Automation and Electrometry, Siberian Branch of the Russian Academy of Sciences
    Novosibirsk State University)

  • I D. Vatnik

    (Institute of Automation and Electrometry, Siberian Branch of the Russian Academy of Sciences
    Novosibirsk State University)

  • M A. Nikulin

    (Institute of Automation and Electrometry, Siberian Branch of the Russian Academy of Sciences)

  • S S. Vergeles

    (Landau Institute for Theoretical Physics, Russian Academy of Sciences
    Moscow Institute of Physics and Technology)

  • I S. Terekhov

    (Novosibirsk State University
    The Budker Institute of Nuclear Physics)

  • V V. Lebedev

    (Landau Institute for Theoretical Physics, Russian Academy of Sciences
    Moscow Institute of Physics and Technology)

  • G. Falkovich

    (Weizmann Institute of Science
    Institute for Information Transmission Problems)

  • S A. Babin

    (Institute of Automation and Electrometry, Siberian Branch of the Russian Academy of Sciences
    Novosibirsk State University)

  • S K. Turitsyn

    (Aston Institute of Photonic Technologies, Aston University
    Novosibirsk State University)

Abstract

Traditional wave kinetics describes the slow evolution of systems with many degrees of freedom to equilibrium via numerous weak non-linear interactions and fails for very important class of dissipative (active) optical systems with cyclic gain and losses, such as lasers with non-linear intracavity dynamics. Here we introduce a conceptually new class of cyclic wave systems, characterized by non-uniform double-scale dynamics with strong periodic changes of the energy spectrum and slow evolution from cycle to cycle to a statistically steady state. Taking a practically important example—random fibre laser—we show that a model describing such a system is close to integrable non-linear Schrödinger equation and needs a new formalism of wave kinetics, developed here. We derive a non-linear kinetic theory of the laser spectrum, generalizing the seminal linear model of Schawlow and Townes. Experimental results agree with our theory. The work has implications for describing kinetics of cyclical systems beyond photonics.

Suggested Citation

  • D V. Churkin & I V. Kolokolov & E V. Podivilov & I D. Vatnik & M A. Nikulin & S S. Vergeles & I S. Terekhov & V V. Lebedev & G. Falkovich & S A. Babin & S K. Turitsyn, 2015. "Wave kinetics of random fibre lasers," Nature Communications, Nature, vol. 6(1), pages 1-6, May.
    • Handle: RePEc:nat:natcom:v:6:y:2015:i:1:d:10.1038_ncomms7214
    DOI: 10.1038/ncomms7214
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