期刊
OPTICS EXPRESS
卷 29, 期 8, 页码 11854-11868出版社
Optica Publishing Group
DOI: 10.1364/OE.421060
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资金
- Science and Technology Planning Project of Shenzhen Municipality [JCYJ20170815140136635, JCYJ20190806143818818]
- National Natural Science Foundation of China [61675055]
This study presents a high-sensitivity fiber-optic relative humidity sensor based on sensitivity amplification and reduction mechanism. The sensor utilizes a cascaded Fabry-Perot interferometers with chitosan film as the sensing cavity, achieving a sensitivity of up to 7.15 nm/% RH. The proposed sensor shows superior stability and cost-effectiveness, with sensitivity related only to the thickness of the chitosan film.
This study experimentally demonstrates a high-sensitivity fiber-optic relative humidity (RH) sensor based on sensitivity amplification and a reduction mechanism, employing an internal-external Fabry-Perot cavity (IEFPC) Vernier effect and a chitosan film as a Fabry-Perot (FP)-sensing cavity. The proposed sensor is constructed using cascaded FP interferometers comprised of an air cavity formed by a hollow-core fiber (HCF), a chitosan cavity, and an air-chitosan hybrid cavity. The chitosan cavity is fabricated by dipping the HCF into a chitosan solution to form a thin chitosan film. Thus, the thickness of the chitosan film could be controlled precisely based on dipping time and capillary effect. As the optical path lengths of an air-chitosan hybrid cavity and an air cavity are similar, the IEFPC Vernier effect is generated, amplifying the air-chitosan hybrid cavity's low sensitivity to the chitosan cavity's high sensitivity. The experimental results agree with the theoretical analysis, supporting the fact that the sensor's sensitivity is related only to the thickness of the chitosan film. The sensitivity of the sensor reaches up to 7.15 nm/% RH, ranging 40%-92% RH at 25 degrees C. Fabrication of the proposed sensor is cost-effective. The proposed sensor also exhibits superior stability performance, a low-temperature cross-sensitivity of 0.0068% RH/degrees C, and repeatable fabrication. The proposed IEFPC Vernier effect model functions well for cascaded cavities, which plays a guiding role in the sensitivity improvement of such a structure within a fiber-optic sensing context. (C) 2021 Optical Society of America under the terms of the OSA Open Access Publishing Agreement
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