Near-infrared conical emission from 800 nm filament in air

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • D. E. Shipilo
  • D. V. Pushkarev
  • N. A. Panov
  • D. S. Uryupina
  • V. A. Andreeva
  • R. V. Volkov
  • A. V. Balakin
  • A. P. Shkurinov
  • Ihar Babushkin
  • Uwe Morgner
  • O. G. Kosareva
  • A. B. Savel'Ev

Organisationseinheiten

Externe Organisationen

  • Lomonosov Moscow State University
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Aufsatznummer035401
FachzeitschriftLaser Physics Letters
Jahrgang14
Ausgabenummer3
PublikationsstatusVeröffentlicht - 20 Jan. 2017

Abstract

We used a single shot imaging technique to register frequency-angular distribution at different positions along the filament of 55 fs 800 nm pulse focused with the numerical aperture of about 1/600 into air. We have revealed that the phenomena accompanying filamentation develop successively in the propagation direction. The conical emission in the visible comes first. Later in the propagation the conical emission in the infrared appears and develops down to 900 nm at least. Multiple robust light bullets become the secondary sources of the conical waves on the infrared side of the spectrum. The overall scenario of the nonlinear phenomena successive appearance in air is for the first time unified in one experiment in atmospheric gases and simulated with the carrier wave resolved in agreement with the experiment.

ASJC Scopus Sachgebiete

Zitieren

Near-infrared conical emission from 800 nm filament in air. / Shipilo, D. E.; Pushkarev, D. V.; Panov, N. A. et al.
in: Laser Physics Letters, Jahrgang 14, Nr. 3, 035401, 20.01.2017.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Shipilo, DE, Pushkarev, DV, Panov, NA, Uryupina, DS, Andreeva, VA, Volkov, RV, Balakin, AV, Shkurinov, AP, Babushkin, I, Morgner, U, Kosareva, OG & Savel'Ev, AB 2017, 'Near-infrared conical emission from 800 nm filament in air', Laser Physics Letters, Jg. 14, Nr. 3, 035401. https://doi.org/10.1088/1612-202x/aa539a
Shipilo, D. E., Pushkarev, D. V., Panov, N. A., Uryupina, D. S., Andreeva, V. A., Volkov, R. V., Balakin, A. V., Shkurinov, A. P., Babushkin, I., Morgner, U., Kosareva, O. G., & Savel'Ev, A. B. (2017). Near-infrared conical emission from 800 nm filament in air. Laser Physics Letters, 14(3), Artikel 035401. https://doi.org/10.1088/1612-202x/aa539a
Shipilo DE, Pushkarev DV, Panov NA, Uryupina DS, Andreeva VA, Volkov RV et al. Near-infrared conical emission from 800 nm filament in air. Laser Physics Letters. 2017 Jan 20;14(3):035401. doi: 10.1088/1612-202x/aa539a
Shipilo, D. E. ; Pushkarev, D. V. ; Panov, N. A. et al. / Near-infrared conical emission from 800 nm filament in air. in: Laser Physics Letters. 2017 ; Jahrgang 14, Nr. 3.
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abstract = "We used a single shot imaging technique to register frequency-angular distribution at different positions along the filament of 55 fs 800 nm pulse focused with the numerical aperture of about 1/600 into air. We have revealed that the phenomena accompanying filamentation develop successively in the propagation direction. The conical emission in the visible comes first. Later in the propagation the conical emission in the infrared appears and develops down to 900 nm at least. Multiple robust light bullets become the secondary sources of the conical waves on the infrared side of the spectrum. The overall scenario of the nonlinear phenomena successive appearance in air is for the first time unified in one experiment in atmospheric gases and simulated with the carrier wave resolved in agreement with the experiment.",
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AU - Shipilo, D. E.

AU - Pushkarev, D. V.

AU - Panov, N. A.

AU - Uryupina, D. S.

AU - Andreeva, V. A.

AU - Volkov, R. V.

AU - Balakin, A. V.

AU - Shkurinov, A. P.

AU - Babushkin, Ihar

AU - Morgner, Uwe

AU - Kosareva, O. G.

AU - Savel'Ev, A. B.

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Y1 - 2017/1/20

N2 - We used a single shot imaging technique to register frequency-angular distribution at different positions along the filament of 55 fs 800 nm pulse focused with the numerical aperture of about 1/600 into air. We have revealed that the phenomena accompanying filamentation develop successively in the propagation direction. The conical emission in the visible comes first. Later in the propagation the conical emission in the infrared appears and develops down to 900 nm at least. Multiple robust light bullets become the secondary sources of the conical waves on the infrared side of the spectrum. The overall scenario of the nonlinear phenomena successive appearance in air is for the first time unified in one experiment in atmospheric gases and simulated with the carrier wave resolved in agreement with the experiment.

AB - We used a single shot imaging technique to register frequency-angular distribution at different positions along the filament of 55 fs 800 nm pulse focused with the numerical aperture of about 1/600 into air. We have revealed that the phenomena accompanying filamentation develop successively in the propagation direction. The conical emission in the visible comes first. Later in the propagation the conical emission in the infrared appears and develops down to 900 nm at least. Multiple robust light bullets become the secondary sources of the conical waves on the infrared side of the spectrum. The overall scenario of the nonlinear phenomena successive appearance in air is for the first time unified in one experiment in atmospheric gases and simulated with the carrier wave resolved in agreement with the experiment.

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KW - femtosecond filamentation

KW - supercontinuum

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JO - Laser Physics Letters

JF - Laser Physics Letters

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