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Kvantovaya Elektronika, 2014, Volume 44, Number 5, Pages 458–464 (Mi qe15913)  

This article is cited in 21 scientific papers (total in 21 papers)

Lasers

Submicrojoule femtosecond erbium-doped fibre laser for the generation of dispersive waves at submicron wavelengths

L. V. Kotovab, M. Yu. Koptevc, E. A. Anashkinacd, S. V. Murav'evc, A. V. Andrianovc, M. M. Bubnovb, A. D. Ignat'eve, D. S. Lipatovfd, A. N. Gur'yanovf, M. E. Likhachevb, A. V. Kimcd

a Moscow Institute of Physics and Technology (State University), Dolgoprudny, Moscow region
b Fiber Optics Research Center of the Russian Academy of Sciences, Moscow
c Institute of Applied Physics, Russian Academy of Sciences, Nizhnii Novgorod
d N. I. Lobachevski State University of Nizhni Novgorod
e "FORC - Photonics" group, Moscow, Russia
f Institute of Chemistry of High-Purity Substances RAS, Nizhnii Novgorod

Abstract: We have demonstrated a femtosecond erbium-doped fibre laser system built in the master oscillator/power amplifier (MOPA) approach. The final amplifier stage utilises a specially designed large mode area active fibre cladding-pumped by multimode laser diodes. The system is capable of generating submicrojoule pulses at a wavelength near 1.6 μm. We have obtained 530-fs pulses with an energy of 400 nJ. The output of the system can be converted to wavelengths shorter than 1 μm through the generation of dispersive waves in passive nonlinear fibre. We have obtained ultra-short 7-nJ pulses with a spectral width of ~100 nm and a centre wavelength of 0.9 μm, which can be used as a seed signal in parametric amplifiers in designing petawatt laser systems.

Keywords: high peak power fibre laser systems, erbium-doped fibre amplifiers, large mode area fibres, ultra-short pulses, dispersive waves.

Full text: PDF file (1224 kB)
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English version:
Quantum Electronics, 2014, 44:5, 458–464

Bibliographic databases:

PACS: 42.55.Wd, 42.60.By, 42.60.Jf, 42.65.Re
Received: 03.03.2014
Revised: 12.03.2014

Citation: L. V. Kotov, M. Yu. Koptev, E. A. Anashkina, S. V. Murav'ev, A. V. Andrianov, M. M. Bubnov, A. D. Ignat'ev, D. S. Lipatov, A. N. Gur'yanov, M. E. Likhachev, A. V. Kim, “Submicrojoule femtosecond erbium-doped fibre laser for the generation of dispersive waves at submicron wavelengths”, Kvantovaya Elektronika, 44:5 (2014), 458–464 [Quantum Electron., 44:5 (2014), 458–464]

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    Citing articles on Google Scholar: Russian citations, English citations
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    2. Anashkina E.A. Andrianov A.V. Dorofeev V.V. Kim A.V., Appl. Optics, 55:17 (2016), 4522–4530  crossref  isi  elib  scopus
    3. Kotov L.V., Bubnov M.M., Lipatov L.D., Yashkov M.V., Guryanov A.N., Likhachev M.E., 2016 International Conference Laser Optics (Lo), IEEE, 2016  isi
    4. A. A. Krylov, A. K. Senatorov, A. D. Pryamikov, A. F. Kosolapov, A. N. Kolyadin, G. K. Alagashev, A. V. Gladyshev, I. A. Bufetov, Laser Phys. Lett., 14:3 (2017)  crossref  isi  scopus
    5. E. A. Anashkina, A. V. Kim, J. Lightwave Technol., 35:24 (2017), 5397–5403  crossref  isi  scopus
    6. E. A. Anashkina, V A. Andrianov, M. Yu. Koptev, V A. Kim, 2017 Opto-Electronics and Communications Conference (Oecc) and Photonics Global Conference (Pgc), Opto-Electronics and Communications Conference-Oecc, IEEE, 2017  isi
    7. S. Han, H. Jang, S. Kim, Y.-J. Kim, S.-W. Kim, Laser Phys. Lett., 14:8 (2017), 080002  crossref  isi  scopus
    8. V. Choudhury, S. Arun, R. Prakash, V. R. Supradeepa, Appl. Optics, 57:21 (2018), 5978–5982  crossref  isi  scopus
    9. Quantum Electron., 48:12 (2018), 1118–1127  mathnet  crossref  isi  elib
    10. S. E. Motorin, V. V. Dorofeev, B. I. Galagan, S. E. Sverchkov, V. V. Koltashev, B. I. Denker, Third International Youth Scientific Forum With International Participation New Materials, IOP Conference Series-Materials Science and Engineering, 347, IOP Publishing Ltd, 2018, UNSP 012038  crossref  isi  scopus
    11. E. A. Anashkina, A. V. Andrianov, M. Y. Koptev, S. Singh, A. V. Kim, 2018 International Conference Laser Optics (Iclo 2018), IEEE, 2018, 311  crossref  isi
    12. V A. Andrianov , N. A. Kalinin, M. Yu. Koptev, O. N. Egorova, V A. Kim , A. G. Litvak, Opt. Lett., 44:2 (2019), 303–306  crossref  isi  scopus
    13. Quantum Electron., 49:4 (2019), 322–329  mathnet  crossref  isi  elib
    14. E. A. Anashkina, M. P. Marisova, A. A. Sorokin, V A. Andrianov, Photonics, 6:2 (2019), 55  crossref  isi
    15. Quantum Electron., 49:12 (2019), 1093–1099  mathnet  crossref  isi  elib
    16. D. A. Stolyarov, D. A. Korobko, I. O. Zolotovskii, A. A. Sysolyatin, Opt. Spectrosc., 126:6 (2019), 638–644  crossref  isi  scopus
    17. Ya. Zh. Ososkov, A. O. Chernutsky, D. A. Dvoretskiy, S. G. Sazonkin, I. O. Orekhov, A. B. Pnev, V. E. Karasik, Optical Sensors 2019, Proceedings of Spie, 11028, eds. F. Baldini, J. Homola, R. Lieberman, Spie-Int Soc Optical Engineering, 2019, 110281I  crossref  isi  scopus
    18. Ya. Zh. Ososkov, A. O. Chernutsky, D. A. Dvoretskiy, S. G. Sazonkin, I. S. Kudelin, I. O. Orekhov, A. B. Pnev, V. E. Karasik, Opt. Spectrosc., 127:4 (2019), 664–668  crossref  isi  scopus
    19. A. Krylov, A. Senatorov, Yu. Yatsenko, IEEE Photonics J., 12:2 (2020)  crossref  isi  scopus
    20. R. Wei, M. Wang, Z. Zhu, W. Lai, P. Yan, Sh. Ruan, J. Wang, Zh. Sun, T. Hasan, IEEE Photonics J., 12:2 (2020), 3200208  crossref  isi  scopus
    21. V A. Andrianov , N. A. Kalinin, E. A. Anashkina, O. N. Egorova, D. S. Lipatov, V A. Kim , S. L. Semjonov, A. G. Litvak, J. Lightwave Technol., 38:8 (2020), 2464–2470  crossref  isi
  • Квантовая электроника Quantum Electronics
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