Temperature-independent refractive index measurement based on Fabry–Perot fiber tip sensor modulated by Fresnel reflection

Yue Ma Yue Ma; Xueguang Qiao Xueguang Qiao; Tuan Guo Tuan Guo; Ruohui Wang Ruohui Wang; Jing Zhang Jing Zhang; Yinyan Weng Yinyan Weng; Qiangzhou Rong Qiangzhou Rong; Manli Hu Manli Hu; Zhongyao Feng Zhongyao Feng

Journal ArticleOPEN ACCESS

Temperature-independent refractive index measurement based on Fabry–Perot fiber tip sensor modulated by Fresnel reflection

Yue Ma Y
Xueguang Qiao X
Tuan Guo T
et al.

Chinese Optics Letters (2012) 10(5) 050603-50606

DOI: 10.3788/col201210.050603

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Abstract

A simple fiber tip sensor for refractive index (RI) measurement based on Fabry-Perot (FP) interference modulated by Fresnel reflection is proposed and demonstrated. The sensor head consists of an etching-induced micro air gap near the tip of a single-mode fiber. The microgap and the fiber tip function as two reflectors to form a FP cavity. The external RI can be unambiguously measured by monitoring the fringe contrast of the interference pattern from the reflection spectrum. The experimental results show that the proposed sensor achieves temperature-independent RI measurement with good linear response. The proposed sensor achieves a high RI resolution of up to 3.4 × 10 -5 and has advantages of low cost and easy fabrication. © 2012 Chinese Optics Letters.

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Yue Ma, Y. M., Xueguang Qiao, X. Q., Tuan Guo, T. G., Ruohui Wang, R. W., Jing Zhang, J. Z., Yinyan Weng, Y. W., … Zhongyao Feng, Z. F. (2012). Temperature-independent refractive index measurement based on Fabry–Perot fiber tip sensor modulated by Fresnel reflection. Chinese Optics Letters, 10(5), 050603–050606. https://doi.org/10.3788/col201210.050603

Temperature-independent refractive index measurement based on Fabry–Perot fiber tip sensor modulated by Fresnel reflection

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