International audienceA novel electro-optic nonlinear delay architecture is presented, which is combining optical phase modulation, differential phase shift keying demodulators of standard DPSK optical communication techniques, and the dynamical principles of the Ikeda ring cavity. Fast, reliable, highly complex, and controlable chaos can be generated. Especially designed for high speed chaos communications, the set-up demonstrated for the first time the capability of 10Gb/s transmission, over an installed metropolitan network of more than 100km. The flexibility of the setup will be also emphasized in order to improve the security of this physical layer encryption
This work develops a theoretical and experimental demonstration for the generation of a wide spectru...
International audienceWe investigate theoretically and experimentally the detrimental effect of fibe...
In this article, we report on the research activity that has been recently carried out in Italy on s...
International audienceWe report on very recent achievements in optical chaos communications. Electro...
International audienceWe report on successful 10 Gb/s transmission of a message hidden in a chaotic ...
International audienceElectro-optic nonlinear delay dynamics are one of the main alternative approac...
International audienceWe report on the latest development in electro-optic chaos communications inte...
International audienceThe dynamical behavior exhibited by a nonlinear delay optical phase dynamics, ...
International audienceWe propose a chaos communication scheme based on a chaotic optical phase carri...
We present a new optoelectronic architecture intended for chaotic optical intensity generation. The ...
International audienceWe present a new optoelectronic architecture intended for chaotic optical inte...
We propose and demonstrate a new analog–digital combined high-secure optical communication system ba...
International audienceWe demonstrate experimentally how nonlinear optical phase dynamics can be gene...
Abstract. In this thesis, the potential of using chaotic optical carriers generated by non-linear op...
This paper reports a novel optoelectronic nonlinear oscillator, which produces a chaotically phase-m...
This work develops a theoretical and experimental demonstration for the generation of a wide spectru...
International audienceWe investigate theoretically and experimentally the detrimental effect of fibe...
In this article, we report on the research activity that has been recently carried out in Italy on s...
International audienceWe report on very recent achievements in optical chaos communications. Electro...
International audienceWe report on successful 10 Gb/s transmission of a message hidden in a chaotic ...
International audienceElectro-optic nonlinear delay dynamics are one of the main alternative approac...
International audienceWe report on the latest development in electro-optic chaos communications inte...
International audienceThe dynamical behavior exhibited by a nonlinear delay optical phase dynamics, ...
International audienceWe propose a chaos communication scheme based on a chaotic optical phase carri...
We present a new optoelectronic architecture intended for chaotic optical intensity generation. The ...
International audienceWe present a new optoelectronic architecture intended for chaotic optical inte...
We propose and demonstrate a new analog–digital combined high-secure optical communication system ba...
International audienceWe demonstrate experimentally how nonlinear optical phase dynamics can be gene...
Abstract. In this thesis, the potential of using chaotic optical carriers generated by non-linear op...
This paper reports a novel optoelectronic nonlinear oscillator, which produces a chaotically phase-m...
This work develops a theoretical and experimental demonstration for the generation of a wide spectru...
International audienceWe investigate theoretically and experimentally the detrimental effect of fibe...
In this article, we report on the research activity that has been recently carried out in Italy on s...