在实际工程中, 光纤弯曲传感器有很大的市场需求。该文利用长周期光纤光栅与无芯光纤串联在1根光纤上构成传感器, 实现对弯曲的传感测量。无芯光纤与长周期光纤光栅级联后, 输出的透射谱中产生了大量对弯曲敏感的谐振峰, 实验考察了波峰1、2的中心波长随弯曲曲率的变化关系。研究结果表明, 波长漂移量与弯曲曲率间存在很好的线性关系, 实验测得弯曲灵敏度分别为-12.51 nm/m-1与-12.504 nm/m-1。该传感器具有结构简单、弯曲灵敏度高,成本低,重复性好等优点, 在大型建筑物与桥梁等弯曲测量领域具有一定的应用价值。

将单锥微纳光纤模式干涉仪和石墨烯相结合,实现了一种高灵敏度的光纤式氨气传感器,其利用 石墨烯的特异性吸附效应及微纳光纤结构的高灵敏度传感特性,通过检测干涉光谱的漂移量实现了对氨气 浓度微弱变化的检测。对不同组传感器进行了对比分析,结果表明当光纤直径为3.4 μm时最大检测灵敏度为10.8 pm/ppm, 与文献中采用其它光纤结构所报道的结果相比几乎提高了一倍。该传感器具有结构简单、易于实现 及灵敏度高等优点,在危害气体浓度报警和人体健康检测等领域有潜在的应用前景。

An original design of ring-core photonic crystal fiber (RPCF) is proposed. By splicing a section of the homemade RPCF between two segments of single mode fibers (SMFs), a simple modal interferometer is presented and experimentally demonstrated. Owing to the effects of the collapsed region, the ring modes in RPCF can be effectively activated. To our knowledge, it is the first time to demonstrate the modal interferometer based on the interference between the ring modes, which is different from the previously reported interferometers based on the interference between core modes or cladding modes. The temperature and strain characteristics of the interferometers with different lengths of RPCF are investigated.