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Kvantovaya Elektronika, 2012, Volume 42, Number 9, Pages 778–780 (Mi qe14940)  

This article is cited in 16 scientific papers (total in 16 papers)

Optical fibres, lasers and amplifiers. Properties and applications

Supercontinuum generation in thulium-doped fibres

A. S. Kurkova, V. A. Kamynina, V. B. Tsvetkova, Ya. È. Sadovnikovab, A. V. Marakulinc, L. A. Minashinac

a Prokhorov General Physics Institute of the Russian Academy of Sciences, Moscow
b Moscow State University of Instrument Engineering and Informatics
c Russian Federal Nuclear Center E. I. Zababakhin All-Russian Scientific Research Institute of Technical Physics, Snezhinsk

Abstract: Supercontinuum generation in thulium-doped fibres under pumping at 1.59 μm is investigated. Amplification of supercontinuum in the range of 1.8--2.0 μm is found for a fibre doped to a level of 2 × 1019 cm-3. For a fibre with an activator concentration of 2 × 1020 cm-3 amplification is also observed in the (2.1 — 2.45)-μm band, which suggests the occurrence of the 3H43H5 optical transition in the fibre. The occupation of the 3H4 level can be explained by cooperative effects.

Keywords: supercontinuum generation, optical fibre, thulium ions.

Full text: PDF file (391 kB)
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English version:
Quantum Electronics, 2012, 42:9, 778–780

Bibliographic databases:

PACS: 42.81.Dp, 42.65.Dr, 42.65.Ky, 42.55.Wd
Received: 04.07.2012

Citation: A. S. Kurkov, V. A. Kamynin, V. B. Tsvetkov, Ya. È. Sadovnikova, A. V. Marakulin, L. A. Minashina, “Supercontinuum generation in thulium-doped fibres”, Kvantovaya Elektronika, 42:9 (2012), 778–780 [Quantum Electron., 42:9 (2012), 778–780]

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    3. H. Hoogland, A. Thai, D. Sánchez, S. L. Cousin, M. Hemmer, Opt. Express, 21:25 (2013), 31390  crossref  adsnasa  isi  elib  scopus
    4. M. Yu. Koptev, E. A. Anashkina, A. V. Andrianov, S. V. Muravyev, A. V. Kim, Opt. Lett, 39:7 (2014), 2008  crossref  adsnasa  isi  elib  scopus
    5. V.A. Kamynin, I.A. Volkov, K.N. Nishchev, V.M. Paramonov, A.S. Kurkov, Laser Phys. Lett, 11:5 (2014), 055105  crossref  adsnasa  isi  elib  scopus
    6. Yi Yu, Xin Gai, Pan Ma, Duk-Yong Choi, Zhiyong Yang, Laser & Photonics Reviews, 2014, n/a  crossref  isi  scopus
    7. Quantum Electron., 44:6 (2014), 602–605  mathnet  crossref  isi  elib
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    9. Jacek Swiderski, Progress in Quantum Electronics, 2014  crossref  isi  scopus
    10. V.A. Kamynin, A.E. Bednyakova, M.P. Fedoruk, I.A. Volkov, K.N. Nishchev, Laser Phys. Lett, 12:6 (2015), 065101  crossref  adsnasa  isi  elib  scopus
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    12. Tao M., Feng G., Yu T., Wang Zh., Shen Ya., Ye X., J. Russ. Laser Res., 37:4 (2016), 395–400  crossref  isi  scopus
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    14. P. H. Reddy, A. V. Kir'yanov, A. Dhar, Sh. Das, D. Dutta, M. Pal, Y. O. Barmenkov, J. A. Minguella-Gallardo, Sh. K. Bhadra, M. Ch. Paul, Appl. Optics, 56:33 (2017), 9315–9324  crossref  isi  scopus
    15. Michalska M., Grzes P., Swiderski J., Opt. Fiber Technol., 43 (2018), 41–44  crossref  isi  scopus
    16. Muravyev S.V. Anashkina E.A. Andrianov A.V. Dorofeev V.V. Motorin S.E. Koptev M.Y. Kim A.V., Sci Rep, 8 (2018), 16164  crossref  isi  scopus
  • Квантовая электроника Quantum Electronics
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