Abstract
The dispersion allocation technique is very effective for realizing soliton transmission system. This technique made it possible to undertake a soliton communication field trial very easily using the conventional fiber cable already installed for commercial systems. We have succeeded in a field demonstration of soliton transmission at 20 Gb/s over 2,000 km and 10 Gbit/s over 2,500 km using part of the Tokyo metropolitan optical loop network.
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References
Nakazawa, M, Kimura, Y. and Suzuki, K.; Soliton amplification and transmission with Er3+-doped fibre repeater pumped by GalnAsP laser diode, Electron Lett. 25 (1989), 199–200.
Kubota, H and Nakazawa, M.; Long-distance optical soliton transmission with lumped amplifiers, IEEE, Quantum Electron. 26 (1990), 692–700.
Nakazawa, M., Suzuki, K. and Kimura, Y.; 3.2–5 Gbit/s, 100 km error-free soliton transmissionwith erbium amplifiers and repeaters, IEEE Photon Tech. Lett. 2 (1990), 216–219.
Hasegawa A. and Kodama, Y.; Guiding-center soliton, Phys. Rev. Lett. 66 (1991), 161–164.
Mollenauer, L. F., Evangelides, S. G. and Haus, H. A.; Long distance soliton propagation using lumped amplifiers and dispersion-shifted fiber, IEEE J. Lightwave Tech. 9 (1991), 194–197.
Blow, K. J. and Doran, N. J.; Acerage soliton dynamics and operation of soliton systems with lumped amplifiers, IEEE Photo. Tech. Lett. 3 (1991), 369–371.
Nakazawa, M. and Kubota, H.; Optical soliton communication in a positively and negatively dispersion-allocated optical fiber transmission line, Electron Lett. 31 (1995),.216–217.
Nakazawa, M. and Kubota, H.; Analyses of the dispersion-allocated bright and dark solitons, Jpn. J. Appl. Phys. 34 (1995), L889-L891.
Tomlinson, W. J., Stolen, R. H. and Shank, C. V.; Compression of optical pulses chirped by self-phase modulation in fibers, J. Opt. Soc. Am. B. 2 (1984), 139–149.
Nakazawa, M., Kimura, Y., Suzuki, K., Kubota, H., Komukai, T., Yamada, E., Sugawa, T., Yoshida, E., Yamamoto, T., Imai, T., Sahara, A., Nakazawa, H., Yamauchi, O. and Umezawa, M; Field demonstration of soliton transmission at 10 Gbit/s over 2000 km in Tokyo metropolitan optical loop network, Electron Lett. 31 (1995), 992–994.
Kondo, S., Wakita, K., Noguchi, Y and Yoshimoto, N. (May 1995) IPRM’95, pp.61 -64, Japan.
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© 1996 Kluwer Academic Publishers
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Kubota, H., Nakazawa, M. (1996). A Dispersion-Allocated Soliton and its Impact on Soliton Communication. In: Hasegawa, A. (eds) Physics and Applications of Optical Solitons in Fibres ’95. Solid-State Science and Technology Library, vol 3. Springer, Dordrecht. https://doi.org/10.1007/978-94-009-1736-1_3
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DOI: https://doi.org/10.1007/978-94-009-1736-1_3
Publisher Name: Springer, Dordrecht
Print ISBN: 978-94-010-7277-9
Online ISBN: 978-94-009-1736-1
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