A refractive index sensor based on the thinned and microstructure fiber Bragg grating (ThMs-FBG) was proposed and realized as a chemical sensing. The numerical simulation for the reflectance spectrum of the ThMs-FBG was calculated and the phase shift down-peak could be observed from the reflectance spectrum. Many factors influencing the reflectance spectrum were considered in detail for simulation, including the etched depth, length, and position. The sandwich-solution etching method was utilized to realize the microstructure of the ThMs-FBG, and the photographs of the microstructure were obtained. Experimental results demonstrated that the reflectance spectrum, phase shift down-peak wavelength, and reflected optical intensity of the ThMs-FBG all depended on the surrounding refractive index. However, only the down-peak wavelength of the ThMs-FBG changed with the surrounding temperature. Under the condition that the length and cladding diameter of the ThMs-FBG microstructure were 800 and 14 (mu)m, respectively, and the position of the microstructure of the ThMs-FBG is in the middle of grating region, the refractive index sensitivity of the ThMs-FBG was 0.79 nm/refractive index unit with the wide range of 1.33-1.457 and a high resolution of 1.2 X 10~(-3). The temperature sensitivity was 0.0103 nm/deg C, which was approximately equal to that of common FBG.
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机译:提出了一种基于减薄的微结构光纤布拉格光栅(ThMs-FBG)的折射率传感器,并将其实现为化学传感。计算了ThMs-FBG反射光谱的数值模拟,并可以从反射光谱观察到峰下相移。在仿真中详细考虑了影响反射光谱的许多因素,包括蚀刻的深度,长度和位置。利用三明治溶液刻蚀法实现了ThMs-FBG的显微组织,并获得了显微照片。实验结果表明,ThMs-FBG的反射光谱,相移下峰波长和反射光强度均取决于周围的折射率。但是,只有ThMs-FBG的下峰波长随周围温度变化。在ThMs-FBG微结构的长度和包层直径分别为800和14μm,并且ThMs-FBG微结构的位置在光栅区域的中间的条件下,折射率灵敏度为ThMs-FBG为0.79 nm /折射率单位,宽范围为1.33-1.457,分辨率为1.2 X 10〜(-3)。温度灵敏度为0.0103 nm /℃,大约等于普通FBG的温度灵敏度。
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