中长跨系统传输及模型实验验证数据

该数据为实验采集数据，原始数据通过相干接收机采集，并通过相应的数字信号处理算法进行求解，实现千公里量级的大容量系统传输。数据来源于大模场面积少模光纤传输单模信号、镜像模式轮循和新型模场适配等系统架构，验证了以上系统架构的有效性和在系统传输中的潜力。该成果最终发表于Optical Letters和2022年OFC会议上。支撑论文“Low-loss Mode Field Adapter Using Reverse Tapering for Fundamental Mode Transmission over MMFs”、“Novel Mirror-flipped Mode Permutation Technique for Long-haul Mode-division Multiplexing Transmissions”以及“Reduced Multipath Interference for Quasi-Single-Mode Transmission via Distributed Raman Amplification”系统架构可应用于大容量光纤传输系统中。

This dataset comprises experimentally collected data. The raw data was acquired via a coherent receiver and processed with corresponding digital signal processing algorithms, enabling high-capacity optical transmission systems with a reach of thousands of kilometers. The dataset is derived from system architectures including large-mode-area few-mode fibers for single-mode signal transmission, mirror-flipped mode permutation, and novel mode field adaptation, which validate the effectiveness and transmission potential of these architectures in long-haul optical transmission systems. This work has been published in *Optical Letters* and the 2022 OFC Conference. The system architectures introduced in the supporting papers titled "Low-loss Mode Field Adapter Using Reverse Tapering for Fundamental Mode Transmission over MMFs", "Novel Mirror-flipped Mode Permutation Technique for Long-haul Mode-division Multiplexing Transmissions", and "Reduced Multipath Interference for Quasi-Single-Mode Transmission via Distributed Raman Amplification" are applicable to high-capacity optical fiber transmission systems.