Photonic chip based 1.28 Tbaud Transmitter Optimization and Receiver OTDM Demultiplexing

T. D. Vo; H. Hu; M. Galili; E. Palushani; J. Xu; L. K. Oxenløwe; S. J. Madden; D.-Y. Choi; D. A. P. Bulla; M. D. Pelusi; J. Schröder; B. Luther-Davies; B. J. Eggleton

doi:10.1364/OFC.2010.PDPC5

Optical Fiber Communication Conference
OSA Technical Digest (CD) (Optica Publishing Group, 2010),
paper PDPC5
•https://doi.org/10.1364/OFC.2010.PDPC5

Photonic chip based 1.28 Tbaud Transmitter Optimization and Receiver OTDM Demultiplexing

T. D. Vo, H. Hu, M. Galili, E. Palushani, J. Xu, L. K. Oxenløwe, S. J. Madden, D.-Y. Choi, D. A. P. Bulla, M. D. Pelusi, J. Schröder, B. Luther-Davies, and B. J. Eggleton

Optical Fiber Communication Conference 2010

San Diego, California United States
21–25 March 2010
ISBN: 978-1-55752-885-8

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Postdeadline Session C: OFDM and OTDM (PDPC)

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T. D. Vo, H. Hu, M. Galili, E. Palushani, J. Xu, L. K. Oxenløwe, S. J. Madden, D. -. Choi, D. A. P. Bulla, M. D. Pelusi, J. Schröder, B. Luther-Davies, and B. J. Eggleton, "Photonic chip based 1.28 Tbaud Transmitter Optimization and Receiver OTDM Demultiplexing," in Optical Fiber Communication Conference, OSA Technical Digest (CD) (Optica Publishing Group, 2010), paper PDPC5.

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Abstract

We propose chip-based Tbaud processing for all-optical performance monitoring, switching and demultiplexing. We demonstrate the first transmitter optimization and receiver-end demultiplexing of 1.28 Tbit/s OOK signals. Both exploited Kerr nonlinearity in dispersion-engineered As₂S₃ planar waveguide.

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