Hybrid III-V on Silicon Fast and Widely Tunable Laser Based on Rings Resonators with PIN Junctions

Théo Verolet; Antonin Gallet; Xavier Pommarède; Jean Decobert; Dalila Make; Jean-Guy Provost; Maryse Fournier; Christophe Jany; Ségolène Olivier; Alexandre Shen; Guanghua Duan

Asia Communications and Photonics Conference (ACP) 2018
OSA Technical Digest (Optica Publishing Group, 2018),
paper Su1F.2

Hybrid III-V on Silicon Fast and Widely Tunable Laser Based on Rings Resonators with PIN Junctions

Théo Verolet, Antonin Gallet, Xavier Pommarède, Jean Decobert, Dalila Make, Jean-Guy Provost, Maryse Fournier, Christophe Jany, Ségolène Olivier, Alexandre Shen, and Guanghua Duan

Asia Communications and Photonics Conference 2018

Hangzhou China
26–29 October 2018
ISBN: 978-1-5386-6158-1

From the session
Best Student Paper Award Competition Track 4 (Su1F)

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T. Verolet, A. Gallet, X. Pommarède, J. Decobert, D. Make, J. Provost, M. Fournier, C. Jany, S. Olivier, A. Shen, and G. Duan, "Hybrid III-V on Silicon Fast and Widely Tunable Laser Based on Rings Resonators with PIN Junctions," in Asia Communications and Photonics Conference (ACP) 2018, OSA Technical Digest (Optica Publishing Group, 2018), paper Su1F.2.

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Abstract

We report on a fast tunable laser in the Hybrid III-V/SOI platform based on the Vernier effect of two rings resonators (RRs). Tunability of 45 nm was achieved thanks to carrier injection in the PIN junctions of the rings resonators. We demonstrated a switching time of 1.5 ns between two neighbor wavelengths, making this device a promising solution for wavelength packet switched networks.

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