WDM compatible 2R regeneration device based on eight-channel saturable absorber module

Q.T. Le; L. Bramerie; S. Lobo; M. Gay; M. Joindot; J.-C. Simon; A. Poudoulec; M. Van Der Keur; C. Devemy; David Massoubre; J.L. Oudar; G. Aubin; A. Shen; J. Decobert

doi:10.1049/el:20072745

WDM compatible 2R regeneration device based on eight-channel saturable absorber module

Q.T. Le, L. Bramerie, S. Lobo, M. Gay, M. Joindot, J.-C. Simon, A. Poudoulec, M. Van Der Keur, C. Devemy, David Massoubre, J.L. Oudar, G. Aubin, A. Shen, J. Decobert

Institute Of Photonics

Research output: Contribution to journal › Article

6 Citations (Scopus)

Abstract

The first pigtailed saturable absorber chip has been implemented with
eight independent fibres using a simple coupling technique. This
device provides full WDM regeneration compatibility, which has
been experimentally demonstrated at 42.6 Gbit=s.

Language	English
Pages	1305-1306
Number of pages	2
Journal	Electronics Letters
Volume	43
Issue number	23
DOIs	10.1049/el:20072745
Publication status	Published - Nov 2007

Fingerprint

Saturable absorbers

Wavelength division multiplexing

Fibers

Keywords

absorber module
regeneration device
absorber chip
WDM regeneration

Cite this

Le, Q. T., Bramerie, L., Lobo, S., Gay, M., Joindot, M., Simon, J-C., ... Decobert, J. (2007). WDM compatible 2R regeneration device based on eight-channel saturable absorber module. Electronics Letters, 43(23), 1305-1306. https://doi.org/10.1049/el:20072745

Le, Q.T. ; Bramerie, L. ; Lobo, S. ; Gay, M. ; Joindot, M. ; Simon, J.-C. ; Poudoulec, A. ; Van Der Keur, M. ; Devemy, C. ; Massoubre, David ; Oudar, J.L. ; Aubin, G. ; Shen, A. ; Decobert, J. / WDM compatible 2R regeneration device based on eight-channel saturable absorber module. In: Electronics Letters. 2007 ; Vol. 43, No. 23. pp. 1305-1306.

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title = "WDM compatible 2R regeneration device based on eight-channel saturable absorber module",

abstract = "The first pigtailed saturable absorber chip has been implemented with eight independent fibres using a simple coupling technique. This device provides full WDM regeneration compatibility, which has been experimentally demonstrated at 42.6 Gbit=s.",

keywords = "absorber module , regeneration device , absorber chip , WDM regeneration",

author = "Q.T. Le and L. Bramerie and S. Lobo and M. Gay and M. Joindot and J.-C. Simon and A. Poudoulec and {Van Der Keur}, M. and C. Devemy and David Massoubre and J.L. Oudar and G. Aubin and A. Shen and J. Decobert",

year = "2007",

month = "11",

doi = "10.1049/el:20072745",

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pages = "1305--1306",

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Le, QT, Bramerie, L, Lobo, S, Gay, M, Joindot, M, Simon, J-C, Poudoulec, A, Van Der Keur, M, Devemy, C, Massoubre, D, Oudar, JL, Aubin, G, Shen, A & Decobert, J 2007, 'WDM compatible 2R regeneration device based on eight-channel saturable absorber module' Electronics Letters, vol. 43, no. 23, pp. 1305-1306. https://doi.org/10.1049/el:20072745

WDM compatible 2R regeneration device based on eight-channel saturable absorber module. / Le, Q.T.; Bramerie, L.; Lobo, S.; Gay, M.; Joindot, M.; Simon, J.-C.; Poudoulec, A.; Van Der Keur, M.; Devemy, C.; Massoubre, David; Oudar, J.L.; Aubin, G.; Shen, A.; Decobert, J.

In: Electronics Letters, Vol. 43, No. 23, 11.2007, p. 1305-1306.

Research output: Contribution to journal › Article

TY - JOUR

T1 - WDM compatible 2R regeneration device based on eight-channel saturable absorber module

AU - Le, Q.T.

AU - Bramerie, L.

AU - Lobo, S.

AU - Gay, M.

AU - Joindot, M.

AU - Simon, J.-C.

AU - Poudoulec, A.

AU - Van Der Keur, M.

AU - Devemy, C.

AU - Massoubre, David

AU - Oudar, J.L.

AU - Aubin, G.

AU - Shen, A.

AU - Decobert, J.

PY - 2007/11

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N2 - The first pigtailed saturable absorber chip has been implemented with eight independent fibres using a simple coupling technique. This device provides full WDM regeneration compatibility, which has been experimentally demonstrated at 42.6 Gbit=s.

AB - The first pigtailed saturable absorber chip has been implemented with eight independent fibres using a simple coupling technique. This device provides full WDM regeneration compatibility, which has been experimentally demonstrated at 42.6 Gbit=s.

KW - absorber module

KW - regeneration device

KW - absorber chip

KW - WDM regeneration

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DO - 10.1049/el:20072745

M3 - Article

VL - 43

SP - 1305

EP - 1306

JO - Electronics Letters

T2 - Electronics Letters

JF - Electronics Letters

SN - 0013-5194

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ER -

Le QT, Bramerie L, Lobo S, Gay M, Joindot M, Simon J-C et al. WDM compatible 2R regeneration device based on eight-channel saturable absorber module. Electronics Letters. 2007 Nov;43(23):1305-1306. https://doi.org/10.1049/el:20072745

Access to Document

10.1049/el:20072745