摘要
本文提出了一种新型测量应变的空芯光子晶体光纤(HCPCF)法布里-珀罗(F-P)干涉传感器,HCPCF的一端与单模光纤熔接形成反射面1,另一端在熔接机内通过电极放电使端面完全塌陷形成反射面2,构成以HCPCF为腔体的新型F-P干涉传感器。实验结果表明,腔长2mm的传感器在室温下的应变灵敏度为3.1nm/με,线性度为0.9992,极限腔长改变量为3827.3nm。温度在0~150℃的温度变化范围内,腔长的改变量约为0.17μm。理论和实验结果表明该新型传感器具有制作工艺简单、应变灵敏度高、温度灵敏度低和没有迟滞现象等优点。
A new kind of strain measurement Hollow-core Photonic Crystal Fiber (HCPCF) Fabry-Perot (F-P) interferometer sensor is presented. One end of the HCPCF is fused with the single-mode fiber to form the reflecting surface 1. The other end of HCPCF completely collapses to form the reflecting surface 2 by the electrode discharge in the welding machine. So the new F-P interferometer sensor with HCPCF cavity is constituted. The experimental results show that the strain sensitivity of the sensor cavity length of 2 mm at room temperature is 3.1 nrn/με, the linearity is 0.999 2 and limit cavity length change is 3 827.3 nm. In the range of 0 - 150 ℃, the change of cavity length is about 0.17 μm. Theoretical and experimental results show that the new sensor has a simple fabrication process, high strain sensitivity, low temperature sensitivity and no hysteresis.
出处
《光电工程》
CAS
CSCD
北大核心
2013年第1期72-77,共6页
Opto-Electronic Engineering
