自由空间光通信
光学
光通信
梁(结构)
自由空间
模式(计算机接口)
物理
光开关
集成光学
激光束
相控阵光学
计算机科学
电子工程
电信
工程类
激光器
相控阵
天线(收音机)
操作系统
作者
Ming Zhang,Zepeng Wei,Ting Lei,Ruitao Wu,Tianhe Heng,Yixin Ma,Luping Du,Xiaocong Yuan
标识
DOI:10.1109/jlt.2025.3577382
摘要
In satellite-to-ground and near-earth links, Free-Space Optical Communication (FSOC) is influenced by atmospheric turbulence. Currently, atmospheric turbulence suppression methods, such as adaptive techniques, multi-transmit diversity reception, and enlarging the receiving aperture, each possess their own limitations. In this paper, mode demultiplexing technology and coherent beam combining technology are applied in FSOC. A scheme of an FSOC system, which has the capacity to counteract the atmospheric turbulence effect, is proposed. It achieves 20 Gbps signal transmission in a 1-km urban horizontal link, with a bit error rate (BER) better than 10⁻⁶. Meanwhile, this paper elaborates on the basic logic of the coherent beam combining control algorithm, analyzes the influence of different types of control schemes on signals, and proposes a coherent beam combining control scheme without signal fading. We fabricated a coherent beam combining system with low insertion loss by using optical fibers and Piezoelectric (PZT) stacked. The energy loss for completing one-stage beam combining is less than 1 dB. This beam combining system can achieve low-loss, high-speed and high-precision beam combining control, with a control frequency of 10 kHz.
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