Litcius/Paper detail

High-speed chaos-based secure optical communications over 130-km multi-core fiber

Zhongyang Wang, Lei Shen, Min Yang, Ziyi Tang, Lei Zhang, Changkun Yan, Liubo Yang, Ruichun Wang, Jun Chu, Jing Du, Jian Wang

2023Optics Letters35 citationsDOI

Abstract

Chaotic optical communication is of great significance for secure data transmission. Despite rapid development over the decades, high-speed (>100 Gbps) and long-distance (>100 km) chaotic optical communication in a single fiber is still full of challenges. Here, we propose and experimentally demonstrate high-speed and long-distance chaos-based secure optical communications using mutual injection of semiconductor lasers and space-division multiplexing (SDM) techniques. The encrypted signals are transmitted through all seven core channels of the multi-core fiber (MCF), which effectively expands the aggregate transmission capacity of a single fiber. A pair of source and synchronization devices based on mutual injection of semiconductor lasers are employed to effectively encrypt and decrypt signals. Chaos-based secure optical communications with 70-Gbps on-off keying (OOK) and 140-Gbps quadrature phase-shift keying (QPSK) signals over a 130-km MCF are successfully demonstrated in the experiment with favorable performance. The demonstration may pave the way for future ultrahigh capacity and ultra-long distance chaotic optical communications by fully exploiting multi-dimensional resources of light waves, including the spatial dimension.

Topics & Concepts

Optical communicationComputer sciencePhase-shift keyingKeyingTransmission (telecommunications)EncryptionOptical fiberElectronic engineeringMultiplexingOpticsTelecommunicationsFree-space optical communicationPhysicsBit error rateComputer networkDecoding methodsEngineeringChaos control and synchronizationNonlinear Dynamics and Pattern FormationChaos-based Image/Signal Encryption