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Ammonia gas detection using photonic crystal fiber with elliptical holes

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OPTICAL ENGINEERING
卷 60, 期 7, 页码 -

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SPIE-SOC PHOTO-OPTICAL INSTRUMENTATION ENGINEERS
DOI: 10.1117/1.OE.60.7.077105

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photonic crystal fiber; gas sensor; relative sensitivity; confinement loss

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A photonic crystal fiber gas sensor with high sensitivity to ammonia concentration in exhaled breath was designed, showing the highest relative sensitivity at a specific wavelength.
Detection of ammonia concentration in exhaled human breath is one of the early diagnoses of renal disease. A photonic crystal fiber (PCF) gas sensor is designed, which gives the highest relative sensitivity from the wavelength of 1.1 to 1.7 mu m. The structure of the proposed PCF consists of five layers with elliptical holes rotated circularly around a core region. The core region consists of two layers with circular holes, which have a hexagonal layer and a central hole. The finite element method is used to investigate the optical properties of PCF. The results show that the proposed PCF gives the highest relative sensitivity of 81.05% at the wavelength of 1.544 mu m, which is the absorption line of the ammonia gas. Other optical properties of the proposed PCF, such as confinement loss and effective area, are calculated at the wavelength of 1.544 mu m, which equal to 0.31 dB/m and 8.71 mu m(2), respectively. The impact of optical properties of the proposed PCF is investigated when the diameter of holes in the core and cladding region is changed. The results show that this structure shows good reliability for the manufacturing errors. (C) 2021 Society of Photo-Optical Instrumentation Engineers (SPIE)

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