材料科学
光纤
纤维
光纤传感器
熔接
温度测量
干扰(通信)
包络线(雷达)
压力测量
光子晶体光纤
光电子学
光学
芯(光纤)
复合材料
物理
电信
频道(广播)
气象学
量子力学
计算机科学
雷达
作者
Jiajie Zhu,Pengyu Nan,Kok‐Sing Lim,Xin Liu,Wenjie Dang,Zeren Li,Jinxiao Dan,Hangting Yang,H. Ahmad,Hangzhou Yang
标识
DOI:10.1109/jsen.2021.3121869
摘要
A compact and simple double F-P interference optical fiber optic gas pressure sensor based on suspended core structure is proposed and demonstrated. The sensor is formed by splicing a Section of thin-walled grapefruit photonic crystal fiber (G-PCF) with single-mode fiber (SMF). By adjusting the special fusion parameters, a short air-cavity region is formed in the G-PCF next to the splicing point with the SMF segment, and the other end of the G-PCF segment is open to the atmosphere. The output interference spectrum of the sensor comprises of two spectral parameters that have different sensitivities to temperature and gas pressure. One of them is the wideband envelope that is associated with the air-cavity and it is only sensitive to the gas pressure but insensitive to the change of ambient temperature. This property is particularly useful for addressing the complex temperature-pressure cross sensitivity of both spectral parameters. The research findings indicate that the sensor can perform an accurate measurement for gas pressure in dynamic range of 0-1.0 MPa under the high temperature condition up to 500 °C.
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