Secure WDM communication based on second order differential feedback electro-optical chaotic mutual injection synchronization

• Published in: Optics and laser technology Vol. 169; p. 110147
• Main Authors: Yu, Meitong, Wang, Hongxiang, Ji, Yuefeng
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.02.2024
• Subjects: Filtered chaos mutual injection; High complexity and ultra-wideband; High speed and long distance; Second order differential electro-optical feedback chaos; Secure WDM chaotic communication; Secure WDM chaotic communication; High speed and long distance; Second order differential electro-optical feedback chaos; Filtered chaos mutual injection; High complexity and ultra-wideband
• ISSN: 0030-3992; 1879-2545
• DOI: 10.1016/j.optlastec.2023.110147

An optical phase chaos and mutual injection chaos synchronization scheme based on second order differential feedback electro-optical loop is proposed for chaotic communication. The filtered chaotic waves for mutual injection synchronization and multi-channel signals are transmitted through wavelength division multiplexing (WDM) to realize large-capacity confidential communication. The results show that the bandwidth of the optical chaos is 41.38 GHz, the normalized permutation entropy is 0.999, and the chaos has the performance of time delay suppressing (TDS). This scheme achieves up to 7-channel 25 GBaud 16QAM with the multi-modulus algorithm (MMA) algorithm at OSNR of 25 dB after 100 km transmission. The bit-rate distance of 280,000 Gb/s km is successfully realized by 500 km transmission of 4-channel 35 GBaud 16QAM signals at 25 dB OSNR. The analysis proves that the performance of the second order digital differential electro-optical phase feedback (2nd order DEOP) chaos is better than that of the 1st order DEOP chaos and 3rd order DEOP chaos. The 2nd order DEOP chaos can be generated at a smaller feedback coefficient, the bandwidth of radio frequency chaos is wider, and the TDS suppression is better. This scheme realizes high-speed and large-capacity secure optical chaos communication, which can be widely used in WDM networks and has practical feasibility and application value. •The second-order differential feedback electro-optical phase chaos (2nd order DEOP chaos).•High complexity, ultra-wideband and time delay signature suppressing.•Chaotic synchronization based on the mutual injection of filtered 2nd order DEOP chaos.•High-speed and long-distance optical secure WDM chaotic communication.