光子学报, 2018, 47 (11): 1106006, 网络出版: 2018-12-17   

单模光纤宏弯损耗的温度响应特性

Temperature Response Properties of Macrobending Loss of Single-mode Fiber
作者单位
1 南昌工程学院 机械与电气工程学院 江西省精密驱动与控制重点实验室, 南昌 330099
2 南昌大学 机电工程学院 江西省机器人与焊接自动化重点实验室, 南昌 330031
摘要
为了实现光纤宏弯温度传感, 对单模光纤宏弯损耗的温度响应特性进行了理论与实验研究.理论上对单模光纤宏弯损耗理论公式进行了温度修正.基于该公式模拟了波长、弯曲半径以及温度对纤芯-无限包层结构单模光纤宏弯损耗性能的影响.设计制作了一种带吸收层和镍保护层的单模光纤宏弯温度传感探头并进行了温度传感性能实验测试.结果表明: 纤芯-无限包层结构单模光纤宏弯损耗对弯曲半径、波长和温度变化较为敏感, 与温度之间的响应呈线性, 该探头的温度分辨率为0.4℃; 通过减小弯曲半径和提高光源波长, 可进一步提高其温度灵敏度和分辨率.该结构光纤可近似看作纤芯-无限包层结构光纤, 用于开发光纤宏弯温度传感器.
Abstract
In order to realize fiber-optic temperature sense based on macrobending loss properties of sinlgle-mode fiber, temperature sensing properties of macro-bend single-mode fiber were studied theoretically and experimentally. Temperature correction is made for a classical macrobending loss theoretical formula of single-mode fiber. Then simulation analysis of effects of bend radius, wavelength and temperature on bend loss of a single-mode fiber with core-infinite cladding structure is made based on the formula. After that, a single-mode fiber temperature sensor with an inner absorption layer and an outer nickel layer outside the cladding layer of the fiber is designed and made. Finally, experimental tests of temperature sensing performance of the sensor are carried out and discussed. Results show that macrobending loss of the fiber with core-infinite cladding structure is sensitive to bend radius, wavelength of light resource and temperature, and the temperature response of the sensor is linear. In addition, the proposed fiber-optic sensor shows a temperature resolution of 0.4 ℃. It′s worth noting that the temperature sensitivity and resolution can be increased by decreasing the bend radius and raising the wavelength of light resource. Thus such single-mode fiber can be treated as core-infinite cladding structure single-mode fiber, which can be used to develop macro-bend optical fiber sensor based on macrobending loss properties.

彭星玲, 茶映鹏, 张华, 李玉龙. 单模光纤宏弯损耗的温度响应特性[J]. 光子学报, 2018, 47(11): 1106006. PENG Xing-ling, CHA Ying-peng, ZHANG Hua, LI Yu-long. Temperature Response Properties of Macrobending Loss of Single-mode Fiber[J]. ACTA PHOTONICA SINICA, 2018, 47(11): 1106006.

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