Dual concentric core dispersion compensating fibre optimised for WDM application
Dual concentric core dispersion compensating fibre optimised for WDM application
- Author(s): F. Gérôme ; J.-L. Auguste ; S. Février ; J. Maury ; J.-M. Blondy ; L. Gasca ; L. Provost
- DOI: 10.1049/el:20057505
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- Author(s): F. Gérôme 1 ; J.-L. Auguste 1 ; S. Février 1 ; J. Maury 1 ; J.-M. Blondy 1 ; L. Gasca 2 ; L. Provost 3
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View affiliations
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Affiliations:
1: Institut de Recherche en Communications Optiques et Microondes, UMR CNRS No. 6615, Université de Limoges, Limoges, France
2: Institut de Recherche en Communications Optiques et Microondes, UMR CNRS No. 6615, Alcatel Research & Innovation, Marcoussis, France
3: Institut de Recherche en Communications Optiques et Microondes, UMR CNRS No. 6615, Avanex, Nozay, France
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Affiliations:
1: Institut de Recherche en Communications Optiques et Microondes, UMR CNRS No. 6615, Université de Limoges, Limoges, France
- Source:
Volume 41, Issue 3,
3 February 2005,
p.
116 – 117
DOI: 10.1049/el:20057505 , Print ISSN 0013-5194, Online ISSN 1350-911X
A dual concentric core fibre exhibiting a chromatic dispersion coefficient around −350 ps/(nm km) is used in a dispersion compensating module designed for WDM application. The optimised length ratio is larger than 20 and the residual chromatic dispersion is measured at 0.4 ps/(nm km) in the C-band.
Inspec keywords: optical fibre dispersion; optical fibre communication; wavelength division multiplexing
Other keywords:
Subjects: Fibre optics; Optical propagation, dispersion and attenuation in fibres; Multiplexing and switching in optical communication
References
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1)
- B. Zhu , S.N. Knudsen , L.E. Nelson , D.W. Peckham , M.Ø. Pedersen , S. Stulz . 800 Gbit/s (80×10.664 Gbit/s) WDM transmission over 5200 km of fibre employing 100 km dispersion-managed spans. Electron. Lett. , 24 , 1467 - 1469
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2)
- Février, S., Auguste, J.-L., Blondy, J.-M., Peyrilloux, A., Roy, P., Pagnoux, D.: `Accurate tuning of the highly-negative-chromatic-dispersion wavelength into a dual concentric core fibre by macro-bending', P1.8, European Conf. on Optical Communication, 2002, Copenhagen, Denmark.
-
3)
- Yokokawa, T., Kato, T., Fujii, T., Yamamoto, Y., Honma, N., Kataoka, A., Onishi, M., Sasaoka, E., Okamoto, K.: `Dispersion compensating fiber with large negative dispersion around −300 ps/km/nm and its application to compact module for dispersion adjustment', FK5, Optical Fiber Communications, 2002, Anaheim, CA, USA.
-
4)
- Mukasa, K., Yagi, T.: `Dispersion flat and low non-linear optical link with new type of reverse dispersion fiber (RDF-60)', TuH7, Optical Fibre Communication Conf., 2001, Anaheim, CA, USA.
-
5)
- Recommendation ITU-T G 650.
-
6)
- J.-L. Auguste , J.-M. Blondy , J. Maury , J. Marcou , B. Dussardier , G. Monnom , R. Jindal , K. Thyagarajan , B.P. Pal . Conception, realization and characterization of a very high negative chromatic dispersion fiber. Opt. Fiber Technol. , 89 - 105
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7)
- J.-L. Auguste , J.-M. Blondy , M. Clapeau , J. Marcou , B. Dussardier , G. Monnom , R. Jindal . Design of a high negative chromatic dispersion in a single mode optical fiber: effect of the central index dip. Opt. Commun. , 71 - 77
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1)