Transmission over 50 km using a directly modulated integrated two-section discrete mode laser at 1550 nm

J. O’Carroll; J. O’Carroll; P.M. Anandarajah; R. Zhou; R. Phelan; B. Kelly; J. O’Gorman; L.P. Barry

2013 Conference on Lasers and Electro-Optics - International Quantum Electronics Conference
(Optica Publishing Group, 2013),
paper CB_7_2

Transmission over 50 km using a directly modulated integrated two-section discrete mode laser at 1550 nm

J. O’Carroll, P.M. Anandarajah, R. Zhou, R. Phelan, B. Kelly, J. O’Gorman, and L.P. Barry

The European Conference on Lasers and Electro-Optics 2013

Munich Germany
12–16 May 2013
ISBN: 978-1-4799-0594-2

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Semiconductor Lasers for Optical Communications (CB_7)

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J. O’Carroll, P. M. Anandarajah, R. Zhou, R. Phelan, B. Kelly, J. O’Gorman, and L. P. Barry, "Transmission over 50 km using a directly modulated integrated two-section discrete mode laser at 1550 nm," in 2013 Conference on Lasers and Electro-Optics - International Quantum Electronics Conference, (Optica Publishing Group, 2013), paper CB_7_2.

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Abstract

Directly modulated lasers provide simple, and cost efficient, optical transmitters for use in optical networks. However, chirp limits the bit rate distance product achievable in such systems, with transmission distances limited to around 10 km when operating at 10 Gbit/s in the 1550 nm window [1, 2], and thereby limiting their suitability as optical transmitters in next generation access networks operating at 10 Gbit/s, where transmission distances of 20 km and beyond will be required. External modulation of lasers is currently the most common method to modulate a light-wave signal in optical communication systems. Although this technique provides high speed and stable data modulation, the large insertion losses and the polarization dependence of the modulator can prove to be cumbersome. The extra optical component also adds to the cost and complexity of the transmitter, rendering this technique unsuitable for cost-sensitive applications.

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