Robust atmospheric FSO communication receiver based on the coherent combination of spatial modes: an experimental evaluation

2022 IEEE International Conference on Space Optical Systems and Applications (ICSOS) Pub Date : 2022-03-28 DOI:10.1109/icsos53063.2022.9749704

A. Maho, V. Billault, J. Bourderionnet, L. Leviandier, P. Feneyrou, A. Brignon, M. Sotom

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引用次数: 4

Abstract

The experimental assessment of a novel all-optical FSO communication receive device based on a spatial mode demultiplexer and a photonic integrated coherent combiner, is reported. The device collects light from the spatial modes coupled into the input multimode fiber and coherently recombines these modes into an output single-mode fiber via a binary-tree integrated photonic circuit. It was evaluated in FSO transmission laboratory experiments featuring an atmospheric propagation channel emulator. The BER performance of a pre-amplified, OOK direct-detection receiver were measured at 10 Gbps, under various disturbance conditions and strengths. Efficient coupling into the receiver input was shown to be maintained resulting in almost constant BER. Low BER floors and limited detection sensitivity penalties were observed. The feasibility of the proposed FSO receiver is proven, together with its ability to provide higher collection efficiency and greater robustness to phase and intensity disturbances than standard SMF receivers.

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基于空间模相干组合的鲁棒大气FSO通信接收机的实验评估

报道了一种基于空间模解复用器和光子集成相干合成器的新型全光FSO通信接收装置的实验评估。该装置从耦合到输入多模光纤的空间模式中收集光，并通过二叉树集成光子电路将这些模式相干地重组成输出单模光纤。在大气传播信道模拟器的FSO传输实验室实验中对其进行了评价。在各种干扰条件和强度下，测量了预放大的OOK直接检测接收机在10 Gbps下的误码率性能。有效耦合到接收机输入被证明是保持几乎恒定的误码率。低误码率和有限的检测灵敏度损失被观察到。所提出的FSO接收机的可行性得到了证明，同时它能够提供更高的收集效率，并且比标准SMF接收机对相位和强度干扰具有更强的鲁棒性。

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2022 IEEE International Conference on Space Optical Systems and Applications (ICSOS)

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