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  • 2013 Conference on Lasers and Electro-Optics - International Quantum Electronics Conference
  • (Optica Publishing Group, 2013),
  • paper CD_10_5

10 GHz bandwidth nonlinear delay electro-optic phase dynamics for ultra-fast nonlinear transient computing

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Abstract

Nonlinear delay dynamical systems have found several fundamental and applied issues in Optics [1], since delays from time of flight of the light becomes easily important, even with a few cm of fibers, compared to fast or even ultra-fast photonic response times. Fiber pigtailed modern Telecom devices can thus provide easy system design strategies to build well-controlled high complexity nonlinear delay dynamics. Recently in that context, electro-optic phase modulation, combined with an imbalanced Mach-Zehnder DPSK demodulator providing a temporally nonlocal nonlinear phase-to-intensity conversion, together with a delayed optoelectronic feedback loop (see Fig.1), was proposed as an efficient optical chaos generator for demonstrating 10 Gb/s optical chaos communications [2].

© 2013 IEEE

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