干涉测量
多模光纤
光学
马赫-曾德尔干涉仪
芯(光纤)
光纤传感器
材料科学
能见度
光纤
色散位移光纤
单模光纤
纤维
曲率
渐变折射率纤维
物理
复合材料
数学
几何学
作者
Runtao Yang,Lianqing Zhu,Jin Li,Tao Xu,Guangkai Sun
标识
DOI:10.1080/10739149.2020.1719413
摘要
An in-line optical fiber Mach-Zehnder interferometer (MZI) sensor with high fringe visibility is reported. The sensor is formed by splicing a short section of four-core fiber (FCF) between two coupling sections. The coupling section is fabricated by cascading very short segment of few mode fiber, multimode fiber (MMF), and large core diameter MMF together. A maximum fringe visibility of approximately 30 dB is obtained in the transmission spectrum. The temperature and curvature sensing response were also experimentally investigated. The temperature sensitivities are 61 pm/°C and 49 pm/°C for dip A and dip B ranging from 30 °C to 80 °C, respectively. The curvature sensitivities for dip A and dip B are 20.77 nm/m−1 and 12.89 nm/m−1 in the range of 0.2983 m−1 to 0.7916 m−1, as well as 9.99 nm/m−1 and 5.38 nm/m−1 from the range of 0.7916 m−1 to 1.039 m−1, respectively. The proposed MZI sensor has the advantage of easy fabrication, compactness, higher fringe visibility, and low cost.
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