Vol. 29, issue 03, article # 3

Zaloznaya E. D., Dormidonov A. E., Kandidov V. P. Influence of near and mid-IR femtosecond pulse parameters on formation of sequences of light bullets in transparent dielectrics. // Optika Atmosfery i Okeana. 2016. V. 29. No. 03. P. 184-191. DOI: 10.15372/AOO20160303 [in Russian].
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Abstract:

Formation of light bullets is numerically investigated during filamentation of near and mid-IR femtosecond pulses in condensed media at anomalous group velocity dispersion. On the example of filamentation of microjoule pulses at wavelengths of 1.4, 1.8, and 2.2 mm in fused silica at powers slightly exceeding the critical self-focusing power, it is established that the subsequent light bullets are not formed if the dispersive length is much bigger and much smaller than the self-focusing length. It is shown that the peak intensity in light bullets does not depend on the initial pulse intensity, is determined by the multiphoton order of laser plasma generation, and increases with the order. In fused silica, the peak intensity in a light bullet makes about 40 TW/cm2 during filamentation of microjoule pulses at a wavelength of 1.4–2.2 mm, and in CaF2, the peak intensity reaches 120 TW/cm2 for pulses at a wavelength of 3 mm. The light bullet is a short-lived formation existing on less than 1 mm distance. It is found that the change in the pulse energy at a wavelength of 3 mm during filamentation in CaF2 influences the number of light bullets and does not increase their time of life.

Keywords:

filamentation, light bullet, femtosecond pulse, anomalous group velocity dispersion

References:

  1. Silberberg Y. Collapse of optical pulses // Opt. Lett. 1990. V. 15, N 22. P. 1282–1284.
  2. Ахманов С.А., Сухоруков А.П., Хохлов Р.В. О самофокусировке и самоканалировании световых пучков в нелинейной среде // Ж. эксперим. и теор. физ. 1966. V. 50, issue 6. P. 1537–1549.
  3. Bergé L., Skupin S. Self-channeling of ultrashort laser pulses in materials with anomalous dispersion // Phys. Rev. E. 2005. V. 71. 065601(R).
  4. Smetanina E.O., Dormidonov A.E., Kandidov V.P. Spatio-temporal evolution scenarios of femtosecond laser pulse filamentation in fused silica // Laser Phys. 2012. V. 22, N 7. P. 1189–1198.
  5. Smetanina E.O., Kompanets V.O., Dormidonov A.E., Chekalin S.V., Kandidov V.P. Light bullets from near-IR filament in fused silica // Laser Phys. Lett. 2013. V. 10, N 10. P. 105401–105407.
  6. Chekalin S.V., Kompanec V.O., Smetanina E.O., Kandidov V.P. Svetovye puli i spektr superkontinuuma pri filamentacii femtosekundnogo impul'sa v uslovijah anomal'noj dispersii v plavlenom kvarce // Kvant. jelektron. 2013. V. 43, N 4. P. 326–331.
  7. Chekalin S.V., Kompanec V.O., Dokukina A.Je., Dormidonov A.E., Smetanina E.O., Kandidov V.P. Vidimoe izluchenie superkontinuuma svetovyh pul' pri femtosekundnoj filamentacii IK-impul'sov v plavlenom kvarce // Kvant. jelektron. 2015. V. 45, N 5. P. 401–407.
  8. Chekalin S., Dokukina A., Dormidonov A., Kompanets V., Smetanina E., Kandidov V. Light bullets from a femtosecond filament // J. Phys. B. 2015. V. 48. 094008 (12 р.).
  9. Durand M., Jarnac A., Houard A., Liu Y., Grabielle S., Forget N., Durecu A., Couairon A., Mysyrowicz A. Self-guided propagation of ultrashort laser pulses in the anomalous dispersion region of transparent solids: A new regime of filamentation // Phys. Rev. Lett. 2013. V. 110. 115003 (4 р.).
  10. Majus D., Tamošauskas G., Gražulevičiūtė I., Garejev N., Lotti A., Couairon A., Faccio D., Dubietis A. Nature of spatiotemporal light bullets in bulk Kerr media // Phys. Rev. Lett. 2014. V. 112. 193901 (5 р.).
  11. Chekalin S.V., Smetanina E.O., Spirkov A.I., Kompanec V.O., Kandidov V.P. Filamentacija fazovo-modulirovannogo impul'sa v uslovijah normal'noj, anomal'noj i nulevoj dispersii gruppovoj skorosti // Kvant. jelektron. 2014. V. 44, N 6. P. 577–584.
  12. Chekalin S.V., Dokukina A.Je., Smetanina E.O., Kompanec V.O., Kandidov V.P. Plazmennye kanaly v filamente femtosekundnogo izluchenija, sfokusirovannogo aksikonom // Kvant. jelektron. 2014. V. 44, N 6. P. 570–576.
  13. Shim B., Schrauth S.E., Gaeta A.L. Filamentation in air with ultrashort mid-infrared pulses // Opt. Exp. 2001. V. 19, N 10. Р. 9118–9126.
  14. Smetanina E.O., Fedorov V.Yu., Dormidonov A.E., Kandidov V.P. Light bullets from mid-IR femtosecond filament in air // J. Phys. Conf. Ser. 2014. V. 541. P. 012071 (5 p.).
  15. Mitrofanov A.V., Voronin A.A., Sidorov-Biryukov D.A., Pugzlys A., Stepanov E.A., Andriukaitis G., Flöry T., Alisauskas S., Fedotov A.B., Baltuska A., Zheltikov A.M. Mid-infrared laser filaments in the atmosphere // Sci. Reports. 2015. V. 5. 8368 (6 p.).
  16. Kandidov V.P., Shlenov S.A., Kosareva O.G. Filamentacija moshhnogo femtosekundnogo lazernogo izluchenija // Kvant. jelektron. 2009. V. 39, N 3. P. 205–228.
  17. Brabec T., Krausz F. Nonlinear optical pulse propagation in the single-cycle regime // Phys. Rev. Lett. 1997. V. 78, N 17. P. 3282–3285.
  18. Kandidov V.P., Smetanina E.O., Dormidonov A.E., Kompanec V.O., Chekalin S.V. Formirovanie konicheskoj jemissii superkontinuuma pri filamentacii femtosekundnogo lazernogo izluchenija v plavlenom kvarce // Zh. jeksperim. i teor. fiz. 2011. V. 140, issue 3. P. 484–496.
  19. Handbook of optical materials / Ed. by M.J. Weber. Boca Raton, London, New York, Washington, D.C.: CRC LLC Press, 2003. 536 p.
  20. Keldysh L.V. Ionizacija v pole sil'noj jelektromagnitnoj volny // Zh. jeksperim. i teor. fiz. 1964. V. 47, issue 5. P. 1945–1957.
  21. Gol'dberg V.N., Talanov V.I., Jerm R.Je. Samofokusirovka aksial'no simmetrichnogo jelektromagnitnogo puchka // Izv. vuzov. Radiofiz. 1967. V. 10, issue 5. PС. 674–685.
  22. Marburger J.H. Self-focusing: Theory // Progr. Quantum Electron. 1975. V. 4. P. 35–110.
  23. Kandidov V.P., Shlenov S.A., Kosareva O.G. Filamentacija moshhnogo femtosekundnogo lazernogo izluchenija // Kvant. jelektron. 2009. V. 39, N 3. P. 205–228.
  24. Smetanina E.O., Kompanec V.O., Chekalin S.V., Kandidov V.P. Osobennosti filamentacii femtosekundnogo lazernogo izluchenija v uslovijah anomal'noj dispersii v plavlenom kvarce. Part 2. Jeksperiment i fizicheskaja interpretacija // Kvant. jelektron. 2012. V. 42, N 10. P. 920–924.