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Champagne, A., Lestrade, M., Camel, J., Maciejko, R., Tromborg, B., Adams, D. M., & Kasunic, K. J. (janvier 2003). Side-mode suppression ratio of DFB lasers in presence of a semiconductor optical amplifier [Communication écrite]. Applications of Photonic Technology 6 - Closing the Gap Between Theory, Development, and Applicaton, Montréal, Québec. Lien externe
Champagne, A., Camel, J., Maciejko, R., Kasunic, K. J., Adams, D. M., & Tromborg, B. Spectral Characteristics of DFB Lasers in Presence of a Semiconductor Optical Amplifier [Communication écrite]. Applications of Photonic Technology 5. Lien externe
Champagne, A., Camel, J., Maciejko, R., Kasunic, K. J., Adams, D. M., & Tromborg, B. (2002). Linewidth broadening in a distributed feedback laser integrated with a semiconductor optical amplifier. IEEE Journal of Quantum Electronics, 38(11), 1493-502. Lien externe
Kasunic, K. J., Tastavridas, K., Lestrade, M., Champagne, A., & Maciejko, R. (janvier 2003). Designing semiconductor optical amplifiers for low multi-channel grain crosstalk [Communication écrite]. Photonics North 2003, Montréal, Québec. Non disponible
Kasunic, K. J., Tastavridis, K., Clark, C. N., Lestrade, M., Champagne, A., & Maciejko, R. (2003). The Effects of Quantum-Well Number on Gain Crosstalk in Semiconductor Optical Amplifiers. IEEE Journal of Quantum Electronics, 39(7), 897-902. Lien externe
Kasunic, K. J., Clark, C., Tastavridas, K., Lestrade, M., Champagne, A., & Maciejko, R. (janvier 2002). Linear semiconductor optical amplifiers for Metro DWDM networks [Communication écrite]. OptoCanada, Ottawa, Ontario. Lien externe
Lestrade, M., Champagne, A., Maciejko, R., Kasunic, K. J., & Adams, D. M. Multi-Electrode Complex-Coupled Dfb Lasers for Reduced Spatial Hole Burning [Communication écrite]. Applications of Photonic Technology 6 - Closing the Gap Between Theory, Development, and Applicaton. Lien externe
Lestrade, M., Champagne, A., Maciejko, R., Kasunic, K. J., & Adams, D. M. (janvier 2003). Time-domain simulation of a multi-electrode complex-coupled DFB laser for reduced spatial hole burning [Communication écrite]. Photonics North 2003, Montréal, Québec. Non disponible
