Simulation of a microstructure fiber glycerol sensor based on lossy mode resonance

International Conference on Precision Instruments and Optical Engineering Pub Date : 2023-02-27 DOI:10.1117/12.2667880
Yuanchong Zhang, Zhaoyue Liu, Lina Zeng, Zaijin Li, Dong Xu, Hao Chen, Zhongliang Qiao, Yingliang Qu, Guojun Liu, Lin Li
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Abstract

In this paper, we design and theoretically simulate a highly sensitive photonic crystal fiber sensor based on lossy mode resonance. An ITO/HfO2 bilayer was coated onto the exposed area of the fiber core as the sensing material. This asymmetrical structure can lead both TM-and TE-polarization to improve the detection performance. In addition, we further investigated the influence of the ratio of ITO/HfO2 bilayer film thickness on the maximum sensitivity of the proposed sensor and finally reached a maximum sensitivity at 1.92nm/1% for glycerol solutions detection, which plays a significant role in the optical fiber sensor in the field of glycerol detection.
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基于损耗模共振的微结构光纤甘油传感器仿真
本文设计并仿真了一种基于有损模式共振的高灵敏度光子晶体光纤传感器。在光纤芯外露部位涂覆ITO/HfO2双分子层作为传感材料。这种不对称结构可以同时导致tm和te极化,从而提高检测性能。此外,我们进一步研究了ITO/HfO2双层膜厚度的比例对所提出传感器最大灵敏度的影响,最终得出甘油溶液检测的最大灵敏度为1.92nm/1%,在光纤传感器中甘油检测领域发挥了重要作用。
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International Conference on Precision Instruments and Optical Engineering
International Conference on Precision Instruments and Optical Engineering
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