Origin, Control, and Predictability of Optical Rogue Waves in Semiconductor Lasers

Jordi Zamora-Munt; Jose A. Reinoso; Bruno Garbin; Stéphane Barland; Massimo Giudici; Jose R. Rios Leite; Cristina Masoller; Jorge R. Tredicce; Jorge R. Tredicce

doi:10.1364/NP.2014.NM3A.2

Advanced Photonics
OSA Technical Digest (online) (Optica Publishing Group, 2014),
paper NM3A.2
•https://doi.org/10.1364/NP.2014.NM3A.2

Origin, Control, and Predictability of Optical Rogue Waves in Semiconductor Lasers

Jordi Zamora-Munt, Jose A. Reinoso, Bruno Garbin, Stéphane Barland, Massimo Giudici, Jose R. Rios Leite, Cristina Masoller, and Jorge R. Tredicce

Nonlinear Photonics 2014

Barcelona Spain
27–31 July 2014
ISBN: 978-1-55752-820-9

From the session
Dissipative Solitons, Rogue Waves and Ultra-short Pulse Modeling I (NM3A)

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J. Zamora-Munt, J. A. Reinoso, B. Garbin, S. Barland, M. Giudici, J. R. Rios Leite, C. Masoller, and J. R. Tredicce, "Origin, Control, and Predictability of Optical Rogue Waves in Semiconductor Lasers," in Advanced Photonics, OSA Technical Digest (online) (Optica Publishing Group, 2014), paper NM3A.2.

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Abstract

We show that optical rogue waves in the form of sharp abnormally large intensity pulses can be predicted with long anticipation times, that they are generated by a crisis-like process, and that noise can be employed to either enhance or suppress their probability of occurrence. We support our findings with numerical simulations and experimental results. By providing a good understanding of the mechanisms triggering and controlling the rogue waves, we can compare the extreme intensity pulses generated in a semiconductor laser with cw optical injection and with an external optical feedback in the short cavity regime. Despite the different mechanisms behind the generation of extreme intensity pulses we show that both systems have similar behaviors.

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