光时域反射计
材料科学
双折射
灵敏度(控制系统)
光学
静水压力
光纤传感器
光纤
分布式声传感
纤维
保偏光纤
光电子学
物理
电子工程
复合材料
热力学
工程类
作者
Hua Zheng,Huan Wu,Yuyao Wang,Xinliang Shen,Zheng Fang,Dongmei Huang,Jitendra Narayan Dash,Lin Htein,Xin Cheng,Hwa‐Yaw Tam,Xiaoli Ding,Chao Lü
标识
DOI:10.1016/j.optlastec.2024.110756
摘要
A highly sensitive distributed optical fiber sensor (DOFS) for simultaneous hydrostatic pressure and temperature measurement is proposed and experimentally demonstrated. By taking advantage of the high sensitivity of frequency scanning phase-sensitive optical time domain reflectometry (φ-OTDR), both the frequency shift of Rayleigh scattering and birefringence along polarization maintaining fiber (PMF) can be demodulated with high accuracy. In the experiment, a standard panda PMF is utilized as sensing fiber, and the sensitivity of Rayleigh backscattering to hydrostatic pressure and temperature are 0.9323 GHz/MPa and −1.507 GHz/K, respectively. By contrast, the conventional DOFS based on Brillouin scattering only shows a hydrostatic pressure and temperature sensitivity of −0.74 MHz/MPa and 1 MHz/K, respectively. Meanwhile, that of birefringence is estimated to be 0.0976 GHz/MPa and −0.0522 GHz/K, respectively. Due to the large sensitivity difference of pressure and temperature, the crosstalk between pressure and temperature can be well resolved. Simultaneous measurement of hydrostatic pressure and temperature is carried out, and the frequency shift of uncertainties of Rayleigh scattering and birefringence 0.59 MHz and 0.68 MHz, respectively, corresponding to a hydrostatic pressure accuracy of 10 kPa and temperature accuracy 66.5 mK.
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