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基于保偏光子晶体光纤的Sagnac干涉温度与应变传感特性 被引量:1

Temperature and Strain Sensing Characteristics of Polarization-Maintaining Photonic Crystal Fiber Based on Sagnac Interference
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摘要 提出一种基于Sagnac干涉原理的光纤传感器,并将其用于温度和应变的环境检测。实验中,选用乙醇溶液填充前后的保偏光子晶体光纤(PM-PCF)作为传感单元。首先,将未填充乙醇溶液的PM-PCF熔接到Sagnac干涉环路中,依靠PM-PCF基底材料的光热效应和光弹性效应,分别在26~50℃温度范围内和0~900μɛ应变范围内,实现了−1.72 nm/℃的温度传感灵敏度和35.35 pm/μɛ的应变灵敏度。然后,利用氮气加压装置,将乙醇溶液填充到PM-PCF包层空气孔内。这是利用功能材料的外场调谐作用来增强Sagnac干涉仪的传感性能。填充乙醇溶液后,该传感器的温度灵敏度达到−2.66 nm/℃,约为原始PM-PCF温度灵敏度的1.55倍。所提出的用于温度和应变测量的Sagnac干涉传感器结构较为简单,具有良好的迟滞性,对提升光纤传感灵敏度具有一定的借鉴意义。 Objective The optical fiber interferometer is a very important optical device,which has been widely used in the fields of physics,chemistry,medicine,and biological environment monitoring.By changing the substrate material of the inserted optical fiber,the performance of the Sagnac optical fiber sensor has been effectively improved.However,limited by the inherent characteristics of optical fiber(such as photoelastic effect and photothermal effect),the sensitivity improvement of optical fiber sensors based on Sagnac interference is hindered.Therefore,improving the sensitivity of the Sagnac sensor is of important research significance.The Sagnac sensors with metal-filled photonic crystal fiber(PCF)can obtain higher sensitivity.However,manufacturing metal-filled PCF requires more stringent technology and costs.The manufacturing of functional liquid-filled PCF is simpler than that of metal-filled PCF.At present,most optical fiber sensors are used for single-element detection,which greatly limits the application of optical fiber sensors.In order to realize two-parameter detection in complex environments,a two-parameter optical fiber sensor based on the Sagnac interference principle is designed to detect temperature and strain.Methods The polarization-maintaining PCF(PM-PCF)model selected in the experiment is LMA-PM-10.The PMPCF's core diameter is about 9.9μm.The diameter of the air hole cladding is about 54.3μm.The diameter of PM-PCF's cladding is about 235μm.The PM-PCF has a strain-sensitive material that is the strain-applying part of the PM-PCF.Therefore,strain detection can be effectively realized through the shift of the Sagnac spectrum.Moreover,the material of the fiber itself and the strain-applying part have a good photothermal effect and thermal expansion effect.Therefore,the PM-PCF is also extremely sensitive to ambient temperature.The sensor can be used for temperature detection because the change in the outside temperature will cause an obvious shift in the interference spectrum.The temperature transformation can be calculated by the movement of the interference spectrum.In addition,by using the nitrogen pressurization device,the ethanol solution is filled into the air hole of PM-PCF.By extending the filling time,each air hole of the optical fiber is filled with ethanol.The filling of temperature-sensitive materials can greatly improve the temperature sensitivity of optical fiber sensors,which is the reason for filling ethanol in the PM-PCF.Experiments have proved that the sensing performance of the sensor has been improved.Results and Discussions First of all,the strain sensitivity of the sensor is tested.Before connecting the optical path,the PM-PCF is welded into the Sagnac ring.The clamp is used to fix the optical fiber in the strain test device.The strain is gradually increased according to the principle of screw micrometer.The strain sensitivity achieves 35.35 pm/μɛin the strain range of 0-900μɛ.During repeated measurements,the sensor shows excellent hysteresis.Then,the temperature sensitivity of the sensor is detected.The whole sensor is placed in the temperature control box for temperature detection.The sensor achieves a temperature-sensing sensitivity of−1.72 nm/℃within the temperature range of 26-50℃when the PM-PCF is not filled with ethanol.The PM-PCF is placed in a closed air chamber,and each air hole is filled with ethanol by a nitrogen pressurization device.After the temperature detection,the sensor temperature sensitivity reaches−2.66 nm/℃,which is 1.55 times that of the raw PM-PCF.This phenomenon effectively proves the importance of filling ethanol.During repeated temperature detection,the sensor shows excellent hysteresis.The Sagnac interferometric sensor for temperature and strain detection has outstanding stability.Conclusions In this paper,an optical fiber sensor based on the Sagnac interference principle is reported,which is used to detect temperature and strain in the environment.In the experiment,the PM-PCF is selected as the sensing unit.First,the PM-PCF without ethanol is fused into the Sagnac interference loop.The sensor relies on the photothermal effect and photoelastic effect of PM-PCF substrate material to achieve a temperature sensing sensitivity of−1.72 nm/℃within the temperature range of 26-50℃and achieve a strain sensitivity of 35.35 pm/μɛin the strain range of 0-900μɛ,respectively.The sensing performance of the Sagnac interferometer can be enhanced by using the external field's tuning effect of functional materials.In this way,ethanol is filled into the air hole of PM-PCF cladding by a nitrogen pressurization device.The temperature sensitivity is−2.66 nm/℃,which is 1.55 times that of the raw PM-PCF.The Sagnac interferometric sensor for temperature and strain detection has a simple structure and excellent hysteresis,which can be used to improve the sensing sensitivity.
作者 武彪 刘云东 陈海良 陈强 马明建 Wu Biao;Liu Yundong;Chen Hailiang;Chen Qiang;Ma Mingjian(School of Science,Yanshan University,Qinhuangdao 066004,Hebei,China;School of Computer and Information Engineering,Luoyang Institute of Technology,Luoyang 471000,Henan,China)
出处 《光学学报》 EI CAS CSCD 北大核心 2023年第10期46-54,共9页 Acta Optica Sinica
基金 国家自然科学基金(12074331) 国家重点研发计划(2019YFB2204001) 河北省自然科学基金(F2021203112)。
关键词 光纤光学 Sagnac干涉 保偏光子晶体光纤 温度传感 应变传感 fiber optics Sagnac interference polarization-maintaining photonic crystal fiber temperature sensing strain sensing
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