光学学报, 2010, 30 (8): 2202, 网络出版: 2010-08-13
激光微加工的光纤法布里珀罗应变传感器
Optical Fiber Fabry-Pérot Strain Sensor Fabricated by Using Laser Micromachining
导波与光纤光学 光纤传感器 激光微加工 光纤法布里珀罗腔 guided wave and fiber optics optical fiber sensors laser micromachining fiber Fabry-Perot cavity
摘要
报道了一种在光纤内部通过采用157 nm激光微加工一个自封闭法布里珀罗(F-P)腔而形成的在线式全光纤标准具。实验研究了这种标准具的应变和温度特性,结果表明,在标准具两固定点相距1 m的情况下,位移相移系数和位移谷值波长漂移系数分别为1 mrad/μm和5.2 pm/μm,曲线的线性度为99.92%;在18 ℃-500 ℃的温度范围内平均温度系数为0.13 mrad/℃和0.64 pm/℃,温度不敏感。实验证明该标准具有很好的传感特性,能满足各种应变测试的需要,如极好的条纹对比度(高达30 dB)、低温度交叉敏感、大规模生产的极大潜能、低成本和耐恶劣环境能力强等。
Abstract
An in-line all-fiber etalon,formed by a self-enclosed Fabry-Pérot (F-P) cavity inside an optical fiber fabricated by using 157 nm laser micromachining,is demonstrated.The strain and temperature characteristics of the etalon sensor are investigated.The results show that the strain sensitivity is 1 mrad/μm and 5.2 pm/μm,and the linearity is 99.92% with two fixed point at a distance of 1 m.Furthermore,the temperature sensitivity is 0.13 mrad/℃ and 0.64 pm/℃ at the range of 18 ℃ to 500 ℃.Experimental results show that the etalon can meet versatile applications for stain measurement because of its perfect sensor characteristics,such as excellent interferometric fringe contrast of up to 30 dB,low thermal cross-sensitivity,great potential to realize mass-production,low cost,and super capability to operate in harsh environments.
徐富国, 饶云江, 冉曾令. 激光微加工的光纤法布里珀罗应变传感器[J]. 光学学报, 2010, 30(8): 2202. Xu Fuguo, Rao Yunjiang, Ran Zengling. Optical Fiber Fabry-Pérot Strain Sensor Fabricated by Using Laser Micromachining[J]. Acta Optica Sinica, 2010, 30(8): 2202.