Модуляционная неустойчивость и компрессия солитоноподобных импульсов в световодах с уменьшающейся аномальной дисперсией

Автор: Базыкчи Александр Николаевич, Золотовский Игорь Олегович, Коробко Дмитрий Александрович, Куприянов Александр Сергеевич

Журнал: Известия Самарского научного центра Российской академии наук @izvestiya-ssc

Рубрика: Физика и электроника

Статья в выпуске: 4-3 т.15, 2013 года.

Бесплатный доступ

В работе рассмотрено применение волоконных световодов с аномальной уменьшающейся по модулю дисперсией, как эффективных генераторов и компрессоров оптических импульсов. Предложен механизм генерации импульсных последовательностей сверхвысокой частоты в процессе развития модуляционной неустойчивости частотно-модулированной волны. Рассмотрено влияние вынужденного комбинационного саморассеяния. Приведены результаты численного моделирования исследуемых процессов.

Модуляционная неустойчивость, световоды с уменьшающейся аномальной дисперсией, компрессия импульсов

Короткий адрес: https://sciup.org/148202363

IDR: 148202363

Список литературы Модуляционная неустойчивость и компрессия солитоноподобных импульсов в световодах с уменьшающейся аномальной дисперсией

Barenblatt G. I. Scaling, Self-similarity and Intermediate Asymptotics: Dimensional Analysis. Cambridge University Press, Cambridge, 1996. 386 p.
Dudley J. M., Finot C., Richardson D., Millot G. Self-similarity and scaling phenomena in nonlinear ultrafast optics//Nat. Phys. 2007. V.3. P.597.
Ponomarenko S. A. and Agrawal G. P. Optical similaritons in nonlinear waveguides//Opt. Lett. 2007. V.32, (12). P. 1659-1661.
Agrawal G. Nonlinear fiber optics. Springer, fourth edition, 2007. 530 p.
Kruglov V. I., Peacock A. C. and Harvey J. D. Exact solutions of the generalized nonlinear Schrödinger equation with distributed coefficients//Phys. Rev. E 2005. V. 71, P. 056619.
Fermann M. E., Kruglov V. I., Thomsen B. C., Dudley J. M. and Harvey J. D. Self-similar propagation and amplification of parabolic pulses in optical fibers//Phys. Rev. Lett. 2000. V. 84, P. 6010 -6013.
Finot C., Barviau B., Millot G., Guryanov A., Sysoliatin A., Wabnitz S. Parabolic pulse generation with active or passive dispersion decreasing optical fibers//Opt. Express. V.15, (24) P. 85824-85835.
Wabnitz S. and Finot C. Theory of parabolic pulse propagation in nonlinear dispersion decreasing optical fiber amplifiers//J. Opt. Soc. Am. B. 2008. V.25, (4) P. 614-621.
Zolotovskii I. O., Sementsov D. I., Senatorov A.K., Sysolyatin A. A. and Yavtushenko M. S. Dynamics of similariton pulses in length-inhomogeneous active fibres//Quantum Electron. 2010. V. 40, (3), P. 229-234.
Hirooka T., Nakazava M. Parabolic pulse generation by use of a dispersion-decreasing fibre with normal group-velocity dispersion//Opt. Lett. 2004. V. 29, (5). P. 498-500.
Moores J. D. Nonlinear compression of chirped solitary waves with and without phase modulation//Opt. Lett. 1996. V. 21. P. 555-557.
Serkin V.N. and Hasegawa A. Novel soliton solutions of the nonlinear Schrodinger equation model//Phys. Rev. Lett. 2000. V. 85 (21), P. 4502-4505.
Serkin V. N., Hasegawa A. and Belyaeva T. L. Comment on “Exact self-similar solutions of the generalized nonlinear Schrodinger equation with distributed coefficients//Phys. Rev. Lett. 2004. V.92 (19), P. 199401.
Zolotovskii I.O., Sementsov D. I. Formation of the Amplification Regime of Quasi-Soliton Pulses in Waveguides with Longitudinally Inhomogeneous Cross Sections//Optics and Spectroscopy. 2007. V. 102 (4). P. 594-598.
Qian Li, Senthilnathan K., Nakkeeran K., and Wai P. K. A. Nearly chirp-and pedestal-free pulse compression in nonlinear fiber Bragg gratings//J. Opt. Soc. Am. B. 2009, V.26, P.432-443.
Zhukov A.V., Zolotovskii I.O., Okhotnikov O.G., Sementsov D.I., Sysolyatin A.A., Yavtushenko I.O. Dynamics of frequency-modulated soliton-like pulses in a longitudinally inhomogeneous active optical waveguide//Optics and Spectroscopy. 2012. V.113 (1). P. 75-80.
Chernikov S.V. and Mamyshev P. V. Femtosecond soliton propagation in fibers with slowly decreasing dispersion//J.Opt. Soc. Am. B. 1991. V.8, P. 1633-1641.
Akhmediev N. Déjà Vu in Optics//Nature. 1991. V.413, P. 267-268.
Tai K., Hasegawa A. and Tomita A. Observation of modulational instability in optical fibers//Phys. Rev. Lett. 1986. V. 56. P. 135-138.
Dianov E. M., Mamyshev P. V., Prokhorov A. M. and Chernikov S. V. Generation of a train of fundamental solitons at a high repetition rate in optical fibers//Opt. Lett. 1989. V.14, P. 1008-1010.
Dudley J. M., Gutty F., Pitois S., Millot G. Complete characterization of THz pulse trains generated from nonlinear processes in optical fibers//IEEE J. Quant. Electron. 2001. V. 37, P. 587-594.
Pitois S., Millot S. Experimental observation of a new modulational instability spectral window induced by fourth-order dispersion in a normally dispersive single-mode optical fiber//Optics Comm. 2003. V. 226, P. 415-422.
Xu W., Zhang S., Chen W., Luo, A., Liu S. Modulation instability of femtosecond pulses in dispersion-decreasing fibers//Optics Comm. 2001. V.199, P. 355-360.
Nithyanandan K., Vasantha Jayakantha Raja R. and Porsezian K. Theoretical investigation of modulational instability in semiconductor doped dispersion decreasing fiber and its cutting edge over the existing fiber systems//J. Opt. Soc. Am. B. 2013. V.30, P. 178-187.
Chernikov S. V., Dianov E. M., Richardson D. J., Laming R. I., Payne D.N. 114 Gbit/s soliton train generation through Raman self‐scattering of a dual frequency beat signal in dispersion decreasing optical fiber//Appl. Phys. Lett. 1993. V. 63, P. 293-295.
Swanson E. A. and Chinn S. R. 23-GHz and 123-GHz soliton pulse generation using two CW lasers and standard single-mode fiber//IEEE Photon. Technol. Lett. 1994. V. 6, P. 796.
Agrawal G. Effect of intrapulse stimulated Raman scattering on soliton-effect pulse compression in optical fibers//Optics Lett. 1990. V. 15 (4). P. 224-226.
Akhmetshin U. G., Bogatyrev V. A., Senatorov A. K., Sysolyatin A. A. and Shalygin M. G. New single-mode fibres with the flat spectral dependence of the chromatic dispersion varying over the fibre length//Quantum Electron. 2003. V. 3. P. 265-267.
Sysoliatin A. A., Akhmetshin U. G., Muraviev S. V. and Kirsanov A. V. Stable continuum generation in fibers with varying dispersion//Laser Phys. 2005. V. 15. P. 1288-1291.
Sysolyatin A. A. and Nolan D. A. Optical signal processing in dispersion varying fibres//J. Nonlinear Opt. Phys. Mater. 2007. V. 16. P. 171-184.
Zolotovskii I. O., Korobko D. A., Okhotnikov O. G., Sysolyatin A. A. and Fotiadi A A Dynamics of frequency-modulated soliton-like pulses in a longitudinally inhomogeneous, anomalous group velocity dispersion fibre amplifier//Quantum Electronics 2012. V. 42. P. 828-833.
Dudley J. M., Genty G., Dias F., Kibler B. and Akhmediev N. // Modulation instability, Akhmediev Breathers and continuous wave supercontinuum generation // Opt. Express. 2009. V. 17. P. 21497–21508.
Mamyshev P. V., Chernikov S. V., Dianov E. M. and Prokhorov A. M. Generation of a high repetition-rate train of practically noninteracting solitons by using the induced modulational instability and Raman self-scattering effects//Opt. Lett. 1990. V. 15, P. 1365-1367.
Ponomarenko S. A. and Agrawal G. P. Nonlinear interaction of two or more similaritons in loss-and dispersion-managed fibers//J.Opt. Soc. Am. B. 2008. V. 25 (6), P. 983-989.
Solli D. R., Ropers C., Koonath P. and Jalali B. Optical rogue waves//Nature. 2007. V. 450. P. 1054-1057.
Erkintalo M., Genty G. and Dudley J. M. On the statistical interpretation of optical rogue waves//Eur. Phys. J. Spec. Top. 2010. V.185, P. 135-144.

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