Abstract

Two compensating methods about solitons transmition systems at 40 Gb/s in a photonic crystal fiber are investigated. The maximum transmission distance of the system is calculated numerically by sliding filters and synchronic modulation technology. The maximum transmission distance increases evidently which occasionally is three times longer than before. The results show that the actions of high order dispersion, polarization mode dispersion, and high order nonlinearity are weakened by the two methods. The compensating effect of synchronic modulation technology is better than that of the other one. The capability of the compensated system is ameliorated, which is shown by eye patterns.

© 2010 Chinese Optics Letters

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D. R. Neill and J. Atai, Phys. Lett. A 367, 73 (2007).

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E. E. Serebryannikov, M.-L. Hu, Y.-F. Li, C.-Y. Wang, Z. Wang, L. Chai, and A. M. Zheltikov, JETP Lett. 81, 487 (2005).

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W. J. Wadsworth, J. C. Knight, A. Ortigosa -Blanch, J. Arriaga, E. Silvestre, and P. St. J. Rusell, Electron. Lett. 36, 53 (2000).

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J. Wang and H. Miao, Laser Technology (in Chinese) 26, 211 (2002).

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E. E. Serebryannikov, M.-L. Hu, Y.-F. Li, C.-Y. Wang, Z. Wang, L. Chai, and A. M. Zheltikov, JETP Lett. 81, 487 (2005).

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J. Xia, D. Chen, L. Yang, J. Qiu, and C. Zhu, Laser Optoelectron. Prog. 42, (2) 8 (2005).

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E. E. Serebryannikov, M.-L. Hu, Y.-F. Li, C.-Y. Wang, Z. Wang, L. Chai, and A. M. Zheltikov, JETP Lett. 81, 487 (2005).

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J. Wang, N. Lin, and B. Yang, Acta Photon. Sin. (in Chinese) 30, 832 (2001)

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W. J. Wadsworth, J. C. Knight, A. Ortigosa -Blanch, J. Arriaga, E. Silvestre, and P. St. J. Rusell, Electron. Lett. 36, 53 (2000).

H. Hasegawa, Y. Oikawa, and M. Nakazawa, Electron. Lett. 43, 119 (2007).

IEEE J. Quantum Electron (1)

H. Kulota and M. Nakazawa, IEEE J. Quantum Electron 29, 2189 (1993).

IEEE Photon. Technol. Lett. (1)

N. Nishizawa, Y. Ito, and T. Goto, IEEE Photon. Technol. Lett. 14, 986 (2002).

J. Lightwave Technol. (1)

JETP Lett. (1)

E. E. Serebryannikov, M.-L. Hu, Y.-F. Li, C.-Y. Wang, Z. Wang, L. Chai, and A. M. Zheltikov, JETP Lett. 81, 487 (2005).

Laser Optoelectron. Prog. (1)

J. Xia, D. Chen, L. Yang, J. Qiu, and C. Zhu, Laser Optoelectron. Prog. 42, (2) 8 (2005).

Laser Technology (in Chinese) (1)

J. Wang and H. Miao, Laser Technology (in Chinese) 26, 211 (2002).

Opt. Lett. (3)

Phys. Lett. A (1)

D. R. Neill and J. Atai, Phys. Lett. A 367, 73 (2007).

Other (2)

G. P. Agrawal, Nonlinear Fiber Optics (Academic Press, New York, 1989).

X. Yang and Y. Wen, Fundamental Theories of Optical Fiber Soliton Communications (National Defence Industry Press, Beijing, 2000) pp.198-225.

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