2.5-Gb/s transmission characteristics of 1.3-μm DFB lasers with external optical feedback

F. Grillot; B. Thedrez; J. Py; O. Gauthier-Lafaye; V. Voiriot; J. L. Lafragette

doi:10.1109/68.974175

2.5-Gb/s transmission characteristics of 1.3-μm DFB lasers with external optical feedback

F. Grillot, B. Thedrez, J. Py, O. Gauthier-Lafaye, V. Voiriot, J. L. Lafragette

Research output: Contribution to journal › Article › peer-review

Abstract

All-optical networks will require low-cost laser source. In order to reduce the packaging cost and to design a module without optical isolator, the 2.5-Gb/s 300-ps/nm transmission characteristics of 1.3-μm distributed-feedback lasers is analyzed in the presence of strong external optical feedback. The penalty degradation when the laser is operating under optical feedback is discussed and its dependence with the coherence collapse onset is analyzed. Although a drastic increase of the penalty with the coherence collapse state is reported, floor-free operation is demonstrated with a return loss as high as -8 dB.

Original language	English
Pages (from-to)	101-103
Number of pages	3
Journal	IEEE Photonics Technology Letters
Volume	14
Issue number	1
DOIs	https://doi.org/10.1109/68.974175
Publication status	Published - 1 Jan 2002
Externally published	Yes

Keywords

Coherence collapse
Feedback
Laser diodes
Transmission

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10.1109/68.974175

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title = "2.5-Gb/s transmission characteristics of 1.3-μm DFB lasers with external optical feedback",

abstract = "All-optical networks will require low-cost laser source. In order to reduce the packaging cost and to design a module without optical isolator, the 2.5-Gb/s 300-ps/nm transmission characteristics of 1.3-μm distributed-feedback lasers is analyzed in the presence of strong external optical feedback. The penalty degradation when the laser is operating under optical feedback is discussed and its dependence with the coherence collapse onset is analyzed. Although a drastic increase of the penalty with the coherence collapse state is reported, floor-free operation is demonstrated with a return loss as high as -8 dB.",

keywords = "Coherence collapse, Feedback, Laser diodes, Transmission",

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AU - Grillot, F.

AU - Thedrez, B.

AU - Py, J.

AU - Gauthier-Lafaye, O.

AU - Voiriot, V.

AU - Lafragette, J. L.

PY - 2002/1/1

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N2 - All-optical networks will require low-cost laser source. In order to reduce the packaging cost and to design a module without optical isolator, the 2.5-Gb/s 300-ps/nm transmission characteristics of 1.3-μm distributed-feedback lasers is analyzed in the presence of strong external optical feedback. The penalty degradation when the laser is operating under optical feedback is discussed and its dependence with the coherence collapse onset is analyzed. Although a drastic increase of the penalty with the coherence collapse state is reported, floor-free operation is demonstrated with a return loss as high as -8 dB.

AB - All-optical networks will require low-cost laser source. In order to reduce the packaging cost and to design a module without optical isolator, the 2.5-Gb/s 300-ps/nm transmission characteristics of 1.3-μm distributed-feedback lasers is analyzed in the presence of strong external optical feedback. The penalty degradation when the laser is operating under optical feedback is discussed and its dependence with the coherence collapse onset is analyzed. Although a drastic increase of the penalty with the coherence collapse state is reported, floor-free operation is demonstrated with a return loss as high as -8 dB.

KW - Coherence collapse

KW - Feedback

KW - Laser diodes

KW - Transmission

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JO - IEEE Photonics Technology Letters

JF - IEEE Photonics Technology Letters

IS - 1

ER -

2.5-Gb/s transmission characteristics of 1.3-μm DFB lasers with external optical feedback

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Keywords

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