基于微纳光纤谐振环的温度传感器研究
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TH741

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国家自然科学基金青年科学基金( 62103290)、辽宁省教育厅面上项目( LJKZ0137)、辽宁省科技厅联合计划项目( 2023JH2 / 101700277)资助


Research on the temperature sensor based on microfiber resonator
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    摘要:

    该项工作制作并验证了基于微纳光纤结型谐振环的高灵敏度且扩大测量范围的温度传感器。 在微纳光纤谐振环中产 生多个模式并参与谐振,多个模式谐振的光谱相互叠加,形成带包络的游标光谱。 通过提取游标光谱的包络线,实现高灵敏度 的温度测量,灵敏度高达-10 nm/ ℃ 。 但计算得到利用游标光谱时的温度测量范围仅约为 4℃ 。 为解决测量范围过小的问题, 将包络光谱与单一频率组分对应的谐振光谱相结合,使测量范围扩大至约 20℃ 。 相比于单一频率组分对应的谐振光谱,利用 游标包络光谱实现了灵敏度约 1 600 倍的放大。 该方案利用游标效应提高温度测量灵敏度的同时,利用单一频率组分对应的 谐振光谱扩大了游标光谱的温度测量范围,提高了传感器的性能和实用性。

    Abstract:

    This work fabricates and demonstrates a temperature sensor with high sensitivity and an expanded measuring range based on the microfiber knot resonator. Multiple-modes are generated in the microfiber knot resonator and participate in the resonance. The spectra of multiple mode resonance is superimposed on each other to form a vernier spectrum with envelope. By extracting the envelope of the vernier spectrum, high-sensitivity temperature measurement can be achieved with the sensitivity of up to - 10 nm/ ℃ . However, the temperature measurement range using the vernier spectrum is calculated to be only about 4℃ . To solve the problem of too small measurement range, the envelope spectrum and single frequency component spectrum are combined to expand the measurement range to about 20℃ . Compared with the resonance spectrum corresponding to the single frequency component, the vernier envelope spectrum achieves an amplification of sensitivity of about 1 600 times. This scheme uses the vernier effect to improve the sensitivity of temperature measurement. Meanwhile, the temperature measuring range of the vernier spectrum is expanded by using the resonant spectrum corresponding to a single frequency component, which improves the performance and practicability of the sensor.

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夏 凤,杨乃凡,林倩如,杨力凝,刘 博.基于微纳光纤谐振环的温度传感器研究[J].仪器仪表学报,2024,44(2):224-232

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  • 在线发布日期: 2024-05-14
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