Mid-infrared laser filaments in the atmosphere

Filamentation of ultrashort laser pulses in the atmosphere offers unique opportunities for long-range transmission of high-power laser radiation and standoff detection. With the critical power of self-focusing scaling as the laser wavelength squared, the quest for longer-wavelength drivers, which wo...

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Published inScientific reports Vol. 5; no. 1; p. 8368
Main Authors Mitrofanov, A. V., Voronin, A. A., Sidorov-Biryukov, D. A., Pugžlys, A., Stepanov, E. A., Andriukaitis, G., Flöry, T., Ališauskas, S., Fedotov, A. B., Baltuška, A., Zheltikov, A. M.
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 17.02.2015
Nature Publishing Group
Subjects
639/624/1020/1095
639/624/400/584
Atmosphere
Filamentation
Filaments
Humanities and Social Sciences
I.R. radiation
Laser radiation
Lasers
multidisciplinary
Power
Scaling
Science
Wavelength
Online AccessGet full text

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Abstract Filamentation of ultrashort laser pulses in the atmosphere offers unique opportunities for long-range transmission of high-power laser radiation and standoff detection. With the critical power of self-focusing scaling as the laser wavelength squared, the quest for longer-wavelength drivers, which would radically increase the peak power and, hence, the laser energy in a single filament, has been ongoing over two decades, during which time the available laser sources limited filamentation experiments in the atmosphere to the near-infrared and visible ranges. Here, we demonstrate filamentation of ultrashort mid-infrared pulses in the atmosphere for the first time. We show that, with the spectrum of a femtosecond laser driver centered at 3.9 μm, right at the edge of the atmospheric transmission window, radiation energies above 20 mJ and peak powers in excess of 200 GW can be transmitted through the atmosphere in a single filament. Our studies reveal unique properties of mid-infrared filaments, where the generation of powerful mid-infrared supercontinuum is accompanied by unusual scenarios of optical harmonic generation, giving rise to remarkably broad radiation spectra, stretching from the visible to the mid-infrared.
AbstractList Filamentation of ultrashort laser pulses in the atmosphere offers unique opportunities for long-range transmission of high-power laser radiation and standoff detection. With the critical power of self-focusing scaling as the laser wavelength squared, the quest for longer-wavelength drivers, which would radically increase the peak power and, hence, the laser energy in a single filament, has been ongoing over two decades, during which time the available laser sources limited filamentation experiments in the atmosphere to the near-infrared and visible ranges. Here, we demonstrate filamentation of ultrashort mid-infrared pulses in the atmosphere for the first time. We show that, with the spectrum of a femtosecond laser driver centered at 3.9 μm, right at the edge of the atmospheric transmission window, radiation energies above 20 mJ and peak powers in excess of 200 GW can be transmitted through the atmosphere in a single filament. Our studies reveal unique properties of mid-infrared filaments, where the generation of powerful mid-infrared supercontinuum is accompanied by unusual scenarios of optical harmonic generation, giving rise to remarkably broad radiation spectra, stretching from the visible to the mid-infrared.
Abstract Filamentation of ultrashort laser pulses in the atmosphere offers unique opportunities for long-range transmission of high-power laser radiation and standoff detection. With the critical power of self-focusing scaling as the laser wavelength squared, the quest for longer-wavelength drivers, which would radically increase the peak power and, hence, the laser energy in a single filament, has been ongoing over two decades, during which time the available laser sources limited filamentation experiments in the atmosphere to the near-infrared and visible ranges. Here, we demonstrate filamentation of ultrashort mid-infrared pulses in the atmosphere for the first time. We show that, with the spectrum of a femtosecond laser driver centered at 3.9 μm, right at the edge of the atmospheric transmission window, radiation energies above 20 mJ and peak powers in excess of 200 GW can be transmitted through the atmosphere in a single filament. Our studies reveal unique properties of mid-infrared filaments, where the generation of powerful mid-infrared supercontinuum is accompanied by unusual scenarios of optical harmonic generation, giving rise to remarkably broad radiation spectra, stretching from the visible to the mid-infrared.
ArticleNumber 8368
Author Voronin, A. A.
Fedotov, A. B.
Mitrofanov, A. V.
Zheltikov, A. M.
Stepanov, E. A.
Ališauskas, S.
Sidorov-Biryukov, D. A.
Pugžlys, A.
Flöry, T.
Andriukaitis, G.
Baltuška, A.
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  surname: Sidorov-Biryukov
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  organization: Russian Quantum Center, Physics Department, International Laser Center, M.V. Lomonosov Moscow State University
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  surname: Pugžlys
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  organization: Photonics Institute, Vienna University of Technology
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  fullname: Stepanov, E. A.
  organization: Russian Quantum Center, Physics Department, International Laser Center, M.V. Lomonosov Moscow State University
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  organization: Photonics Institute, Vienna University of Technology
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  organization: Photonics Institute, Vienna University of Technology
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  surname: Ališauskas
  fullname: Ališauskas, S.
  organization: Photonics Institute, Vienna University of Technology
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  surname: Fedotov
  fullname: Fedotov, A. B.
  organization: Russian Quantum Center, Physics Department, International Laser Center, M.V. Lomonosov Moscow State University
– sequence: 10
  givenname: A.
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  surname: Zheltikov
  fullname: Zheltikov, A. M.
  organization: Russian Quantum Center, Physics Department, International Laser Center, M.V. Lomonosov Moscow State University, Department of Physics and Astronomy, Texas A&M University
BackLink https://www.ncbi.nlm.nih.gov/pubmed/25687621$$D View this record in MEDLINE/PubMed
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G Tempea (BFsrep08368_CR18) 1998; 23
D Kartashov (BFsrep08368_CR20) 2012; 86
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Snippet Filamentation of ultrashort laser pulses in the atmosphere offers unique opportunities for long-range transmission of high-power laser radiation and standoff...
Abstract Filamentation of ultrashort laser pulses in the atmosphere offers unique opportunities for long-range transmission of high-power laser radiation and...
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StartPage 8368
SubjectTerms 639/624/1020/1095
639/624/400/584
Atmosphere
Filamentation
Filaments
Humanities and Social Sciences
I.R. radiation
Laser radiation
Lasers
multidisciplinary
Power
Scaling
Science
Wavelength
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Title Mid-infrared laser filaments in the atmosphere
URI https://link.springer.com/article/10.1038/srep08368
https://www.ncbi.nlm.nih.gov/pubmed/25687621
https://www.proquest.com/docview/1898096277
https://search.proquest.com/docview/1657322031
https://pubmed.ncbi.nlm.nih.gov/PMC4330538
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