现场实验光混沌通信@ 10Gb/s演示电光相位混沌原理

M. Jacquot, R. Lavrov, J. Oden, Y. Chembo, M. Nguimdo, P. Colet, L. Larger
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引用次数: 1

摘要

在实验光混沌通信中,电光非线性延迟动力学是替代外腔半导体激光器的主要方法之一。在最近完成的欧洲项目(PICASSO, FP6-IST-2006-34551)的框架中,我们通过一种新的电光方法展示了最先进的性能,该方法涉及从延迟非线性非局部反馈振荡器产生混沌光相位宽带载波,能够在超过15 GHz的带宽上实现高质量的远程混沌同步。我们的最新研究包括前所未有的10Gb/s光混沌通信现场实验的演示,宽带电光混沌中关键色散问题的研究,基于灵活可靠的物理关键组件的安全实现,以及伪随机比特序列驱动的非局部相位混沌动力学的增强鲁棒性抗时间延迟识别研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Field experiment optical chaos communication @ 10Gb/s demonstrating electro-optic phase chaos principles
Electro-optic nonlinear delay dynamics are one of the main alternative approach to external cavity semiconductor lasers, in the context of experimental optical chaos communications setups. In the frame of a recently accomplished European project (PICASSO, FP6-IST-2006-34551), we have demonstrated state of the art performances with a novel electro-optic approach involving the generation of chaotic optical phase broadband carrier from delayed nonlinear non-local feedback oscillator, capable of high quality distant chaos synchronization over a bandwidth exceeding 15 GHz. Our latest investigations were concerned by the demonstration of unprecedented 10Gb/s field experiment of optical chaos communication, by the investigation of the critical dispersion issues in broadband electro-optic optical chaos, and by the implementation of flexible and reliable physical key-components based security, as well as by the study of the enhanced robustness versus time delay identification for the non-local phase chaos dynamics driven by a pseudo random bit sequence.
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