Photonic chip based transmitter optimization and receiver demultiplexing of a 1.28 Tbit/s OTDM signal

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/OE.18.017252

Photonic chip based transmitter optimization and receiver demultiplexing of a 1.28 Tbit/s OTDM signal

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

Research output: Contribution to journal › Article › peer-review

84 Citations (Scopus)

Abstract

We demonstrate chip-based Tbaud optical signal processing for all-optical performance monitoring, switching and demultiplexing based on the instantaneous Kerr nonlinearity in a dispersion-engineered As ₂S ₃ planar waveguide. At the Tbaud transmitter, we use a THz bandwidth radiofrequency spectrum analyzer to perform all-optical performance monitoring and to optimize the optical time division multiplexing stages as well as mitigate impairments, for example, dispersion. At the Tbaud receiver, we demonstrate error-free demultiplexing of a 1.28 Tbit/s single wavelength, return-to-zero signal to 10 Gbit/s via four-wave mixing with negligible system penalty (< 0.5 dB). Excellent performance, including high fourwave mixing conversion efficiency and no indication of an error-floor, was achieved. Our results establish the feasibility of Tbaud signal processing using compact nonlinear planar waveguides for Tbit/s Ethernet applications.

Original language	English
Pages (from-to)	17252-17261
Number of pages	10
Journal	Optics Express
Volume	18
Issue number	16
DOIs	https://doi.org/10.1364/OE.18.017252
Publication status	Published - 2 Aug 2010

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title = "Photonic chip based transmitter optimization and receiver demultiplexing of a 1.28 Tbit/s OTDM signal",

abstract = "We demonstrate chip-based Tbaud optical signal processing for all-optical performance monitoring, switching and demultiplexing based on the instantaneous Kerr nonlinearity in a dispersion-engineered As 2S 3 planar waveguide. At the Tbaud transmitter, we use a THz bandwidth radiofrequency spectrum analyzer to perform all-optical performance monitoring and to optimize the optical time division multiplexing stages as well as mitigate impairments, for example, dispersion. At the Tbaud receiver, we demonstrate error-free demultiplexing of a 1.28 Tbit/s single wavelength, return-to-zero signal to 10 Gbit/s via four-wave mixing with negligible system penalty (< 0.5 dB). Excellent performance, including high fourwave mixing conversion efficiency and no indication of an error-floor, was achieved. Our results establish the feasibility of Tbaud signal processing using compact nonlinear planar waveguides for Tbit/s Ethernet applications.",

author = "Vo, {T. D.} and H. Hu and M. Galili and E. Palushani and J. Xu and Oxenl{\o}we, {L. K.} and Madden, {S. J.} and Choi, {D. Y.} and Bulla, {D. A.P.} and Pelusi, {M. D.} and J. Schr{\"o}der and B. Luther-Davies and Eggleton, {B. J.}",

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doi = "10.1364/OE.18.017252",

language = "English",

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T1 - Photonic chip based transmitter optimization and receiver demultiplexing of a 1.28 Tbit/s OTDM signal

AU - Vo, T. D.

AU - Hu, H.

AU - Galili, M.

AU - Palushani, E.

AU - Xu, J.

AU - Oxenløwe, L. K.

AU - Madden, S. J.

AU - Choi, D. Y.

AU - Bulla, D. A.P.

AU - Pelusi, M. D.

AU - Schröder, J.

AU - Luther-Davies, B.

AU - Eggleton, B. J.

PY - 2010/8/2

Y1 - 2010/8/2

N2 - We demonstrate chip-based Tbaud optical signal processing for all-optical performance monitoring, switching and demultiplexing based on the instantaneous Kerr nonlinearity in a dispersion-engineered As 2S 3 planar waveguide. At the Tbaud transmitter, we use a THz bandwidth radiofrequency spectrum analyzer to perform all-optical performance monitoring and to optimize the optical time division multiplexing stages as well as mitigate impairments, for example, dispersion. At the Tbaud receiver, we demonstrate error-free demultiplexing of a 1.28 Tbit/s single wavelength, return-to-zero signal to 10 Gbit/s via four-wave mixing with negligible system penalty (< 0.5 dB). Excellent performance, including high fourwave mixing conversion efficiency and no indication of an error-floor, was achieved. Our results establish the feasibility of Tbaud signal processing using compact nonlinear planar waveguides for Tbit/s Ethernet applications.

AB - We demonstrate chip-based Tbaud optical signal processing for all-optical performance monitoring, switching and demultiplexing based on the instantaneous Kerr nonlinearity in a dispersion-engineered As 2S 3 planar waveguide. At the Tbaud transmitter, we use a THz bandwidth radiofrequency spectrum analyzer to perform all-optical performance monitoring and to optimize the optical time division multiplexing stages as well as mitigate impairments, for example, dispersion. At the Tbaud receiver, we demonstrate error-free demultiplexing of a 1.28 Tbit/s single wavelength, return-to-zero signal to 10 Gbit/s via four-wave mixing with negligible system penalty (< 0.5 dB). Excellent performance, including high fourwave mixing conversion efficiency and no indication of an error-floor, was achieved. Our results establish the feasibility of Tbaud signal processing using compact nonlinear planar waveguides for Tbit/s Ethernet applications.

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DO - 10.1364/OE.18.017252

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JO - Optics Express

JF - Optics Express

IS - 16

ER -

Photonic chip based transmitter optimization and receiver demultiplexing of a 1.28 Tbit/s OTDM signal

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