Dissipative aspects of extreme nonlinear optics

Publikation: Beitrag in FachzeitschriftÜbersichtsarbeitForschungPeer-Review

Autoren

  • N. N. Rosanov
  • N. A. Veretenov
  • S. V. Fedorov
  • I. A. Alexandrov
  • M. V. Arkhipov
  • R. M. Arkhipov
  • D. A. Tumakov
  • I. Babushkin
  • A. V. Dadeko

Organisationseinheiten

Externe Organisationen

  • RAS - Ioffe Physico Technical Institute
  • Staatliche Universität Sankt Petersburg
  • S.I. Vavilov State Optical Institute
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Seiten (von - bis)959-969
Seitenumfang11
FachzeitschriftQuantum electronics
Jahrgang51
Ausgabenummer11
PublikationsstatusVeröffentlicht - Nov. 2021

Abstract

Studies of extreme nonlinear optical effects, in which dissipative factors such as absorption and amplification of light in a medium play a fundamental role, are reviewed. The generation of pulses with extremely short duration down to unipolar ones is analysed by tracking the development of ideas related to the self-induced transparency phenomenon, whose practical application becomes real for extremely short pulses in lasers and laser media. Extreme radiation structuring is achieved in dissipative (laser) solitons characterised by a complex topology of phase and polarisation singularities, which is of interest for coding information.

ASJC Scopus Sachgebiete

Zitieren

Dissipative aspects of extreme nonlinear optics. / Rosanov, N. N.; Veretenov, N. A.; Fedorov, S. V. et al.
in: Quantum electronics, Jahrgang 51, Nr. 11, 11.2021, S. 959-969.

Publikation: Beitrag in FachzeitschriftÜbersichtsarbeitForschungPeer-Review

Rosanov, NN, Veretenov, NA, Fedorov, SV, Alexandrov, IA, Arkhipov, MV, Arkhipov, RM, Tumakov, DA, Babushkin, I & Dadeko, AV 2021, 'Dissipative aspects of extreme nonlinear optics', Quantum electronics, Jg. 51, Nr. 11, S. 959-969. https://doi.org/10.1070/QEL17637
Rosanov, N. N., Veretenov, N. A., Fedorov, S. V., Alexandrov, I. A., Arkhipov, M. V., Arkhipov, R. M., Tumakov, D. A., Babushkin, I., & Dadeko, A. V. (2021). Dissipative aspects of extreme nonlinear optics. Quantum electronics, 51(11), 959-969. https://doi.org/10.1070/QEL17637
Rosanov NN, Veretenov NA, Fedorov SV, Alexandrov IA, Arkhipov MV, Arkhipov RM et al. Dissipative aspects of extreme nonlinear optics. Quantum electronics. 2021 Nov;51(11):959-969. doi: 10.1070/QEL17637
Rosanov, N. N. ; Veretenov, N. A. ; Fedorov, S. V. et al. / Dissipative aspects of extreme nonlinear optics. in: Quantum electronics. 2021 ; Jahrgang 51, Nr. 11. S. 959-969.
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abstract = "Studies of extreme nonlinear optical effects, in which dissipative factors such as absorption and amplification of light in a medium play a fundamental role, are reviewed. The generation of pulses with extremely short duration down to unipolar ones is analysed by tracking the development of ideas related to the self-induced transparency phenomenon, whose practical application becomes real for extremely short pulses in lasers and laser media. Extreme radiation structuring is achieved in dissipative (laser) solitons characterised by a complex topology of phase and polarisation singularities, which is of interest for coding information.",
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T1 - Dissipative aspects of extreme nonlinear optics

AU - Rosanov, N. N.

AU - Veretenov, N. A.

AU - Fedorov, S. V.

AU - Alexandrov, I. A.

AU - Arkhipov, M. V.

AU - Arkhipov, R. M.

AU - Tumakov, D. A.

AU - Babushkin, I.

AU - Dadeko, A. V.

N1 - Funding Information: The work was supported by the Russian Science Foundation (Grant No. 21-72-10028, studies of self-induced transparency for extremely short pulses and experimental observation of extreme events in a system of dissipative SIT solitons; Grant No. 18-12-00075, analysis of topological dissipative optical solitons). M.V. Arkhipov's work on revealing correlations in multipulse laser radiation was supported by the Russian Foundation for Basic Research (Grant No. 20-02-00872 a).

PY - 2021/11

Y1 - 2021/11

N2 - Studies of extreme nonlinear optical effects, in which dissipative factors such as absorption and amplification of light in a medium play a fundamental role, are reviewed. The generation of pulses with extremely short duration down to unipolar ones is analysed by tracking the development of ideas related to the self-induced transparency phenomenon, whose practical application becomes real for extremely short pulses in lasers and laser media. Extreme radiation structuring is achieved in dissipative (laser) solitons characterised by a complex topology of phase and polarisation singularities, which is of interest for coding information.

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KW - Extremely short radiation pulses

KW - Self-induced transparency

KW - Topological dissipative optical solitons

KW - Unipolar pulses

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DO - 10.1070/QEL17637

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