The Experimental System for Soliton Transmission and Error-rate Measurement

[in Chinese]; [in Chinese]; [in Chinese]; [in Chinese]; [in Chinese]; [in Chinese]

Journals >Chinese Journal of Lasers >Volume 26 >Issue 9 >Page 819 > Article

Chinese Journal of Lasers
Vol. 26, Issue 9, 819 (1999)

The Experimental System for Soliton Transmission and Error-rate Measurement

[in Chinese]^1、2, [in Chinese]¹, [in Chinese]¹, [in Chinese]¹, [in Chinese]¹, and [in Chinese]²

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¹[in Chinese]

²[in Chinese]

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[in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese]. The Experimental System for Soliton Transmission and Error-rate Measurement[J]. Chinese Journal of Lasers, 1999, 26(9): 819 Copy Citation Text

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References

[1] John M. Jacob, E. A. Golovehenko, A. N. Pilipetski et al.. 10-Gb/s transmission of NRZ over 10000 km and solitons over 13500 km error-free in the same dispersion-managed system. IEEE Photon. Technol. Lett., 1997,9(10)1412～1414

[2] O. Leclerc, E. Desurvire. Investigation into the robustness of 100 Gbit/s (5×20 Gbit/s) regenerated WDM soliton transoceanic transmission to line breaks and repairs. Electron. Lett., 1997,33(18):1568～1570

[4] Jianjun Yu, Bojun Yang, Kejian Guan et al.. Dispersion-allocated soliton technology with long amplifier spacing and long distance. IEEE Photon. Technol. Lett., 1997,9(7):952～954

[7] Yu Jianjun, Li Chaohui, Yang Bojun et al.. Optical fiber ring laser with tunable wavelength and repetitive frequency. Chinese J. Lasers, to be published

[8] Eric A. Seanson, Stephen R. Chinn. 40 GHz pulse train generation using soliton compression of a Mach-Zehnder modulator output. IEEE Photon. Technol. Lett., 1995,7(1):114～116

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