Reconfigurable OTDM Demultiplexing Using FWM in Highly Nonlinear Fiber and a Tunable Planar Lightwave Circuit

We demonstrate reconfigurable demultiplexing of arbitrary single or multiple 10 Gb/s tributary channels from a higher rate 40 Gb/s data signal using a programmable planar lightwave circuit (PLC) and four-wave mixing (FWM). The PLC is a thermally tunable six-stage lattice-form Mach-Zehnder interferom...

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Veröffentlicht in:	IEEE photonics technology letters 2012-01, Vol.24 (1), p.13-15
Hauptverfasser:	Samadi, P., Chen, L. R., Kostko, I. A., Dumais, P., Callender, C. L., Jacob, S., Shia, B.
Format:	Artikel
Sprache:	eng
Schlagworte:	Channels Circuits Conferences Demultiplexing Dispersion Fiber optics Four-wave mixing Nonlinear optical signal processing Nonlinear optics Optical amplifiers Optical fibers Optical filters Optical interferometry Optical pulses optical time-division-multiplexing (OTDM) demultiplexing planar lightwave circuits (PLCs) Product life cycle
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creator	Samadi, P. Chen, L. R. Kostko, I. A. Dumais, P. Callender, C. L. Jacob, S. Shia, B.
description	We demonstrate reconfigurable demultiplexing of arbitrary single or multiple 10 Gb/s tributary channels from a higher rate 40 Gb/s data signal using a programmable planar lightwave circuit (PLC) and four-wave mixing (FWM). The PLC is a thermally tunable six-stage lattice-form Mach-Zehnder interferometer fabricated in silica-on-silicon. We present results for optical time-division-multiplexing (OTDM) demultiplexing of both return-to-zero on-off keying (RZ-OOK) and differential phase-shift-keying (RZ-DPSK) data.
doi_str_mv	10.1109/LPT.2011.2171937
format	Article
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subjects	Channels Circuits Conferences Demultiplexing Dispersion Fiber optics Four-wave mixing Nonlinear optical signal processing Nonlinear optics Optical amplifiers Optical fibers Optical filters Optical interferometry Optical pulses optical time-division-multiplexing (OTDM) demultiplexing planar lightwave circuits (PLCs) Product life cycle
title	Reconfigurable OTDM Demultiplexing Using FWM in Highly Nonlinear Fiber and a Tunable Planar Lightwave Circuit
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