Sub-nanosecond Optical Switching Using Chip-Based Soliton Microcombs

Lange, S.; Raja, A. S.; Shi, K.; Karpov, M.; Behrendt, R.; Cletheroe, D.; Haller, I; Karinou, F.; Fu, X.; Liu, J.; Lukashchuk, A.; Thomsen, B.; Jozwik, K.; Costa, P.; Kippenberg, T. J.; Ballani, H.

doi:10.1364/OFC.2020.W2A.4

Lange, S.; Raja, A. S.; Shi, K.; Karpov, M.; Behrendt, R.; Cletheroe, D.; Haller, I; Karinou, F.; Fu, X.; Liu, J.; Lukashchuk, A.; Thomsen, B.; Jozwik, K.; Costa, P.; Kippenberg, T. J.; Ballani, H.

2020

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Abstract

We demonstrate sub-nanosecond wavelength switching, using a chip-based soliton microcomb and a semiconductor optical amplifier-based wavelength selector. 50-Gbps PAM4 transmission is achieved with discrete components and 25-Gbps NRZ with a photonic integrated wavelength selector.

Details

Title Sub-nanosecond Optical Switching Using Chip-Based Soliton Microcombs

Author(s) Lange, S. ; Raja, A. S. ; Shi, K. ; Karpov, M. ; Behrendt, R. ; Cletheroe, D. ; Haller, I ; Karinou, F. ; Fu, X. ; Liu, J. ; Lukashchuk, A. ; Thomsen, B. ; Jozwik, K. ; Costa, P. ; Kippenberg, T. J. ; Ballani, H.

Published in 2020 Optical Fiber Communications Conference And Exposition (Ofc)

Conference Optical Fiber Communications Conference and Exposition (OFC), Mar 08-12, 2020, San Diego, CA

Date 2020-01-01

Publisher New York, IEEE

ISBN 978-1-9435-8071-2

DOI https://doi.org/10.1364/OFC.2020.W2A.4

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Laboratories LPQM

Record Appears in Scientific production and competences > STI - School of Engineering > IEM - Institut d'Electricité et de Microtechnique > LPQM - Laboratory of Photonics and Quantum Measurements (STI/SB)
Scientific production and competences > SB - School of Basic Sciences > IPHYS - Institute of Physics > LPQM - Laboratory of Photonics and Quantum Measurements (STI/SB)
Peer-reviewed publications
Conference Papers
Work produced at EPFL
Published

Record creation date 2021-08-28