基于马赫-曾德尔干涉仪的光纤轴向微位移传感器。
Optical fiber axial micro-displacement sensor based on Mach-Zehnder interferometer.
作者信息
Shen Changyu, Wang Youqing, Chu Jinlei, Lu Yanfang, Li Yi, Dong Xinyong
出版信息
Opt Express. 2014 Dec 29;22(26):31984-92. doi: 10.1364/OE.22.031984.
A Mach-Zehnder interferometer (MZI) based fiber axial micro-displacement sensor was proposed. The MZI was constructed by a bowknot-type taper (BTT) combining with a fiber core-offset between two single mode fibers (SMFs). The axial micro-displacement of the core offset is correlated with the MZI transmission spectrum and varied with the interferometer arm length. For the arm length L of 12, 18, 24 and 30 mm, the proposed sensors showed high sensitivity of -0.362 dB/μm, -0.385 dB/μm, -0.332 dB/μm and -0.235dB/μm, and temperature errors of -0.056 dB/°C, -0.036 dB/°C, -0.044 dB/°C, -0.048 dB/°C, respectively. The theoretical simulations of the energy distributions were also given. The obtained sensitivity of -0.385 dB/μm is about 150 times high than that of the current similar existing axial micro-displacement sensor.
提出了一种基于马赫-曾德尔干涉仪(MZI)的光纤轴向微位移传感器。该MZI由一个蝴蝶结型锥度(BTT)与两根单模光纤(SMF)之间的纤芯偏移相结合构成。纤芯偏移的轴向微位移与MZI传输光谱相关,并随干涉仪臂长而变化。对于臂长L为12、18、24和30mm的情况,所提出的传感器分别显示出-0.362dB/μm、-0.385dB/μm、-0.332dB/μm和-0.235dB/μm的高灵敏度,以及-0.056dB/°C、-0.036dB/°C、-0.044dB/°C、-0.048dB/°C的温度误差。还给出了能量分布的理论模拟。所获得的-0.385dB/μm的灵敏度比当前类似的现有轴向微位移传感器高约150倍。
Zotero 插件