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Kvantovaya Elektronika, 2010, Volume 40, Number 10, Pages 861–867 (Mi qe14381)  

This article is cited in 13 scientific papers (total in 13 papers)

Control of radiation parameters

Radiation phase locking in an array of globally coupled fibre lasers

D. V. Vysotskii, N. N. Ëlkin, A. P. Napartovich

State Research Center of Russian Federation "Troitsk Institute for Innovation and Fusion Research"

Abstract: A model of an array of globally coupled fibre lasers, with the same fraction of the total output beam returned to each laser, is considered. The basic element of the model is a single laser controlled by an external signal. The output power of each laser in the array is found as a function of small-signal gain and frequency detuning. The maximum efficiency of phase locking and minimum fraction of output radiation that is necessary to form a feedback are calculated as functions of the number of lasers in the array. It is shown that gain saturation increases the efficiency of coherent beam summation in arrays containing up to 20 lasers.

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English version:
Quantum Electronics, 2010, 40:10, 861–867

Bibliographic databases:

PACS: 42.55.Wd, 42.60.By, 42.60.Da, 42.60.Jf
Received: 21.06.2010

Citation: D. V. Vysotskii, N. N. Ëlkin, A. P. Napartovich, “Radiation phase locking in an array of globally coupled fibre lasers”, Kvantovaya Elektronika, 40:10 (2010), 861–867 [Quantum Electron., 40:10 (2010), 861–867]

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  • http://mi.mathnet.ru/eng/qe/v40/i10/p861

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    Citing articles on Google Scholar: Russian citations, English citations
    Related articles on Google Scholar: Russian articles, English articles

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    1. Corcoran Ch.J., Durville F., Ray W., IEEE J. Quantum Electron., 47:7 (2011), 1043–1048  crossref  adsnasa  isi  scopus
    2. Napartovich A.P. Elkin N.N. Vysotsky D.V., Fiber Lasers VIII: Technology, Systems, and Applications, Proceedings of SPIE, 7914, ed. Dawson J. Honea E., SPIE-Int Soc Optical Engineering, 2011, 791428  crossref  isi  scopus
    3. V. K. Sysoev, K. M. Pichkhadze, L. I. Feldman, E. A. Arapov, A. S. Luzyanin, Sol Syst Res, 46:7 (2012), 548  crossref  adsnasa  isi  elib  scopus
    4. E.J.. Bochove, M.R.. Zunoubi, Ch.J.. Corcoran, Opt. Lett, 38:23 (2013), 5016  crossref  adsnasa  isi  elib  scopus
    5. Quantum Electron., 43:9 (2013), 845–851  mathnet  crossref  adsnasa  isi  elib
    6. Bochove E.J., Zunoubi M.R., Corcoran Ch.J., Laser-Induced Damage in Optical Materials: 2013, Proceedings of SPIE, 8885, eds. Exarhos G., Gruzdev V., Menapace J., Ristau D., Soileau M., SPIE-Int Soc Optical Engineering, 2013  crossref  isi  scopus
    7. Ch.J.. Corcoran, Frederic Durville, Opt. Express, 22:7 (2014), 8420  crossref  adsnasa  isi  elib  scopus
    8. François Jeux, Agnès Desfarges-Berthelemot, Vincent Kermène, Alain Barthelemy, Laser Phys. Lett, 11:9 (2014), 095003  crossref  isi  scopus
    9. S. D. Pol’skikh, P. A. Semenov, Atmos Ocean Opt, 27:4 (2014), 355  crossref  scopus
    10. A.P.. Napartovich, N.N.. Elkin, D.V.. Vysotsky, Appl. Opt, 53:31 (2014), I23  crossref  isi  scopus
    11. Barabanov A.A., Papchenko B.P., Pichkhadze K.M., Rebrov S.G., Semenkin A.V., Sysoev V.K., Yanchur S.V., Solar Syst. Res., 50:7 (2016), 471–476  crossref  isi  scopus
    12. Kunkel W.M., Leger J.R., Proceedings of Spie, 10904, eds. Kudryashov A., Paxton A., Ilchenko V., Spie-Int Soc Optical Engineering, 2019, UNSP 109041N  crossref  isi
    13. Quantum Electron., 49:11 (2019), 989–1007  mathnet  crossref  isi  elib
  • Квантовая электроника Quantum Electronics
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