This paper reports a novel optoelectronic nonlinear oscillator, which produces a chaotically phase-modulated light beam over a bandwidth greater than 5 GHz. The setup is intended for high-speed chaos-based secure communications. The nonlinear process is performed by the transient response of a fiber interferometer. The flexibility in the definition of such an all-optical nonlinearity features a potentially high-dimensional key space of the encryption process. Modeling, simulations, and experimental results of the dynamical behaviors are reported
Abstract—We present a numerical and experimental evaluation of message encryption by phase modulatio...
Secure optical communication has been realized with two semiconductor lasers driven by two chaotic R...
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 report on very recent achievements in optical chaos communications. Electro...
This work develops a theoretical and experimental demonstration for the generation of a wide spectru...
International audienceWe present a new optoelectronic architecture intended for chaotic optical inte...
Abstract. In this thesis, the potential of using chaotic optical carriers generated by non-linear op...
International audienceElectro-optic nonlinear delay dynamics are one of the main alternative approac...
International audienceA novel electro-optic nonlinear delay architecture is presented, which is comb...
International audienceWe report on successful 10 Gb/s transmission of a message hidden in a chaotic ...
We propose and demonstrate a new analog–digital combined high-secure optical communication system ba...
International audienceIn this paper, we demonstrate the applicability of the OFDM multiple-access te...
International audienceFollowing the principle of a highly nonlinear delay oscillator, we demonstrate...
Abstract—We present a numerical and experimental evaluation of message encryption by phase modulatio...
Secure optical communication has been realized with two semiconductor lasers driven by two chaotic R...
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 report on very recent achievements in optical chaos communications. Electro...
This work develops a theoretical and experimental demonstration for the generation of a wide spectru...
International audienceWe present a new optoelectronic architecture intended for chaotic optical inte...
Abstract. In this thesis, the potential of using chaotic optical carriers generated by non-linear op...
International audienceElectro-optic nonlinear delay dynamics are one of the main alternative approac...
International audienceA novel electro-optic nonlinear delay architecture is presented, which is comb...
International audienceWe report on successful 10 Gb/s transmission of a message hidden in a chaotic ...
We propose and demonstrate a new analog–digital combined high-secure optical communication system ba...
International audienceIn this paper, we demonstrate the applicability of the OFDM multiple-access te...
International audienceFollowing the principle of a highly nonlinear delay oscillator, we demonstrate...
Abstract—We present a numerical and experimental evaluation of message encryption by phase modulatio...
Secure optical communication has been realized with two semiconductor lasers driven by two chaotic R...
International audienceThe dynamical behavior exhibited by a nonlinear delay optical phase dynamics, ...