SUPERCONTINUUM SPECTRUM SMOOTHING IN THE MICROSTRUCTURE FIBERS WITH PERIODICALLY MODULATED DIAMETER


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Mazhirina Y. F., Konukhov А. I., Melnikov . А. SUPERCONTINUUM SPECTRUM SMOOTHING IN THE MICROSTRUCTURE FIBERS WITH PERIODICALLY MODULATED DIAMETER. Izvestiya VUZ. Applied Nonlinear Dynamics, 2008, vol. 16, iss. 1, pp. 70-80. DOI: https://doi.org/10.18500/0869-6632-2008-16-1-70-80


The results of numerical modelling of the supercontinuum generation in microstructure fibers excited by femtosecond multi-soliton pulses are presented. Pulse dynamics is modelled using the extended Schrodinger equation, in which the dispersion and nonlinear coefficient for given fiber are calculated by plane wave method. It is more easy to achieve the phase-matching conditions for the dispersive wave generation in the fibers with periodical modulated diameter. It is shown that the periodical modulation of fiber diameter allows to control the spectrum of multi-soliton pulses that leads to spectral broadening and disappearance of the gap between spectra of soliton and dispersive wave.

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DOI: 
10.18500/0869-6632-2008-16-1-70-80
Literature

1. Желтиков А.М. Да будет белый свет: генерация суперконтинуума сверхкороткими лазерными импульсами// УФН. 2006. T. 176. C. 23

2. Genty G., Lehtonen M., and Ludvigsen H. Enhanced bandwidth of supercontinuum generated in microstructured fibers // Opt. Expr. 2004. Vol. 12. P. 3471

3. Mori K., Takara H., Kawanishi S. Analysis and design of supercontinuum pulse generation in a single-mode optical fiber // J. Opt. Soc. Am. B. 2001. Vol. 18. P. 1780.

4. Hori T., et al. Flatly broadened, wideband and low noise supercontinuum generation in highly nonlinear hybrid fiber // Opt. Expr. 2004. Vol. 12. P. 317

5. Li Y., et al. Interaction of supercontinuum and Raman solitons with microstructure fiber gratings //Opt. Expr. 2005. Vol. 13. P. 998

6. Lu F., Deng Y., Knox W.H. Generation of broadband femtosecond visible pulses in dispersion-micromanaged holey fibers // Opt. Lett. 2005. Vol. 30. P. 1566

7. Cristiani I., et al. Dispersive wave generation by solitons in microstructured optical fibers // Opt. Expr. 2003. Vol. 12. P. 124.

8. Nikolov N.I., et al. Improving efficiency of supercontinuum generation in photonic crystal fibers by direct degenerate four-wave mixing // J. Opt. Soc. Am. B. 2003. Vol. 20. P. 2329

9. Bauer R.G., Melnikov L.A. Multi-soliton fission and quasi-periodicity in a fiber with a periodically modulated core diameter // Opt. Commun. 1995. Vol. 115. P. 190.

10. Hasegawa A., Kodama Y. Guiding center solitons // Phys. Rev. Lett. 1991. Vol. 66. P. 161 78

11. Ахмедиев Н. и др. Солитоны, нелинейные импульсы и пучки. Москва: Изд-во Физматлит, 2003.

12. Mollenauer L., Gordon J., Islam M. Soliton propagation in long fibers with periodically compensated loss // IEEE J. of Quant. Electron. 1986. Vol. 22. P. 157

13. Nelson L.E., Jones D.J., Tamura K., Haus H.A., Ippen E.P. Ultrashort-pulse fiberring lasers //Appl. Phys. B. 1997. Vol. 65. P. 277

14. Ахманов С.А., Коротеев Н.И. Методы нелинейной оптики в спектроскопии рассеяния света. М.: Наука, 1981.

15. Снайдер A., Love Дж. Tеория оптических волноводов. М.: Радио и связь, 1987.

16. http://www.glassbank.ru/eng/ Дисперсионные характеристики стекла марки TФ10 сходны с дисперсионными характеристиками стекла марки SF6 (Schott AG, Германия).

17. Broeng J., et al. Photonic crystal fibres: a new class of optical waveguides //Opt.l Fib. Tech. 1999. Vol. 5. P. 305

18. Агравал Г. Нелинейная волоконная оптика. М.: Мир, 1996.

19. Feng X., Mairaj A.K., Hewak D.W., Monro T.M. Nonsilica glasses for holey fibers // J. of Lightwave Tech. 2005. Vol. 23. P. 2046

20. Golovchenko E. A., Dianov E. M., Prokhorov A. M., and Serkin V. N. Decay of optical solitons //JETP Lett. 1985. Vol. 42. P. 87.

21. Tai K. , Hasegawa A., Bekki N. Fission of optical solitons induced by stimulated Raman effect // Opt. Lett. 1988. Vol. 13. P. 392.

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BibTeX

@article{Мажирина -IzvVUZ_AND-16-1-70,
author = {Yu. F. Mazhirina and А. I. Konukhov and L. А. Melnikov},
title = {SUPERCONTINUUM SPECTRUM SMOOTHING IN THE MICROSTRUCTURE FIBERS WITH PERIODICALLY MODULATED DIAMETER},
year = {2008},
journal = {Izvestiya VUZ. Applied Nonlinear Dynamics},
volume = {16},number = {1},
url = {https://old-andjournal.sgu.ru/en/articles/supercontinuum-spectrum-smoothing-in-the-microstructure-fibers-with-periodically-modulated},
address = {Саратов},
language = {russian},
doi = {10.18500/0869-6632-2008-16-1-70-80},pages = {70--80},issn = {0869-6632},
keywords = {-},
abstract = {The results of numerical modelling of the supercontinuum generation in microstructure fibers excited by femtosecond multi-soliton pulses are presented. Pulse dynamics is modelled using the extended Schrodinger equation, in which the dispersion and nonlinear coefficient for given fiber are calculated by plane wave method. It is more easy to achieve the phase-matching conditions for the dispersive wave generation in the fibers with periodical modulated diameter. It is shown that the periodical modulation of fiber diameter allows to control the spectrum of multi-soliton pulses that leads to spectral broadening and disappearance of the gap between spectra of soliton and dispersive wave. }}