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442 km repeaterless transmission in a 10 Gbit/s system experiment

442 km repeaterless transmission in a 10 Gbit/s system experiment

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10 Gbit/s unrepeatered transmission is achieved over a distance of 442.5 km by using remotely pumped post and preamplifiers, low loss silica-core fibre combined with dispersion compensation, as well as artificial broadening of the spectrum to eliminate stimulated Brillouin scattering.

Inspec keywords: compensation; optical pumping; optical fibre dispersion; optical fibre communication; spectral line broadening; fibre lasers

Other keywords: remotely pumped postamplifiers; remotely pumped preamplifiers; 442 km; Gbit/s system experiment; 10 Gbit/s; km repeaterless transmission; artificial spectral broadening; low loss silica-core fibre; Gbit/s unrepeatered transmission; dispersion compensation

Subjects: Optical propagation, dispersion and attenuation in fibres; Optical communication devices, equipment and systems; Fibre optics; Fibre lasers and amplifiers; Optical communication; Fibre lasers and amplifiers

References

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      • A. Sano , Y. Miyamoto , T. Kataoka , H. Kawakami , K. Hagimoto . 10 Gbit/s, 300 kmrepeaterless transmission with SBS suppression by the use of the RZ format. Electron. Lett. , 20 , 1694 - 1695
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      • Y. Miyamoto , T. Kataoka , A. Sano , K. Hagimoto , K. Aida , Y. Kobayashi . 10 Gbit/s, 280 km nonrepeatered transmission with suppression of modulationinstability. Electron. Lett. , 10 , 797 - 798
    3. 3)
      • Sian, S.S., Gautheron, O., Chaudhry, M.S., Stark, C.D., Webb, S.M., Guild, K.M., Mesic, M., Dryland, J.M., Chapman, J.R., Docker, A.R., Brandon, E., Barbier, T., Garabedian, P., Bousselet, P.: `511 km at 2.5 Gbit/s and 531 km at 622 Mbit/s - unrepeatered transmissionwith remote pumped amplifier, forward error correction and dispersion compensation', PD-26, Conf. on Optical Fiber Communication, February 1995, San Diego, CA.
    4. 4)
      • Korotky, S.K., Hansen, P.B., Eskildsen, L., Veselka, J.J.: `Efficient phase modulationscheme for suppressing stimulated Brillouin scattering', WD2-1, Conf. on Integrated Optics andOptical Communication, June 1995, Hong Kong.
    5. 5)
      • Vengsarkar, A.M., Miller, A.E., Haner, M., Gnauck, A.H., Reed, W.A., Walker, K.L.: `Fundamental-mode dispersion-compensating fibres: design considerationsandexperiments', ThK2, Dig. of OFC'94, February 1994, San Jose, CA.
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      • Grubb, S.G., Strasser, T., Cheung, W.Y., Reed, W.A., Mizrahi, V., Erdogan, T., Lemaire, P.J., Vengsarkar, A.M., DiGiovanni, D.J.: `High-power 1.48 µm cascaded Raman laser ingermanosilicate fibers', Topical Meet. on Optical Amplifiers and their Applications, June 1995, Davos, Switzerland.
    7. 7)
      • Jørgensen, B.F.: `Unrepeatered transmission at 10 Gbit/s over 204 km standard fiber', ECOC'94, September 1994, Florence, Italy, p. 685–688.
    8. 8)
      • P.B. Hansen , L. Eskildsen , S.G. Grubb , A.M. Vengsarkar , S.K. Korotky , T.A. Strasser , J.E.J. Alphonsus , J.J. Veselka , D.J. DiGiovanni , D.W. Peckham , E.C. Beck , D. Truxal , W.Y. Cheung , S.G. Kosinski , D. Gasper , P.F. Wysocki , V.L. da Silva , J.R. Simpson . 529-km unrepeatered transmission at 2.488 Gb/s using dispersion compensation,forward error correction, and remote post- and pre-amplifiers pumped by diode-pumpedRaman lasers. Electron. Lett. , 17 , 1460 - 1461
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