材料科学
衰减
数据传输
光纤
光电子学
光通信
波导管
放大器
光学
传输(电信)
光放大器
传输损耗
塑料光纤
通信系统
纤维
信号(编程语言)
聚合物
光子学
多模光纤
光衰减器
灵活性(工程)
光强度
电子工程
衰减系数
降级(电信)
能量(信号处理)
波分复用
吸收(声学)
微结构光纤
单模光纤
波长
作者
Xiangyi Sun,Xiangzhuo Han,Junfeng Song,An Cui,Huayue Zhao,Zhanchen Cui,Fei Teng,C. Chen
标识
DOI:10.1002/lpor.202502230
摘要
ABSTRACT With the increasing number of users in local networks, the demand for high‐efficiency short‐distance data transmission has surged. Plastic optical fiber (POF) communication systems with high speed, bandwidth, and flexibility have been used as ideal technologies for last‐mile applications. However, visible‐light signal intensity attenuation and data quality degradation in POF transmission have become extremely severe owing to the continuously increasing number of network nodes in a finite space. In this study, polymer visible‐light fluorene‐doped waveguide amplifiers (FDWAs) are proposed for POF communication systems. Both intermolecular energy‐assisted and balanced transfer processes are realized between triarylsulfonium salt photoinitiators and fluorescent small‐molecule oligomers, based on the Förster resonance energy transfer mechanism. The FDWAs can be fabricated using a UV direct‐writing technique. The gain coefficients of 1.32 dB/mm at 532 nm green light and 0.83 dB/mm at 655 nm red light under 405 nm pumping light are obtained. The proposed technique is suitable for high‐density local POF network applications.
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