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Main Authors: Duan, Dewen, Kang, Qian, Yang, Qianhui, Zhao, Zihao, Li, Na, Du, Guan-Xiang, Xie, Yi-Yuan
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2408.07354
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author Duan, Dewen
Kang, Qian
Yang, Qianhui
Zhao, Zihao
Li, Na
Du, Guan-Xiang
Xie, Yi-Yuan
author_facet Duan, Dewen
Kang, Qian
Yang, Qianhui
Zhao, Zihao
Li, Na
Du, Guan-Xiang
Xie, Yi-Yuan
contents We present an all-fiber, fully open Fabry-Perot interferometer (FPI) cavity that is suitable for fluidic measurement applications. Fabrication of the FPI involves the alignment and bonding of three optical fiber sections using either ceramic glue or low-temperature melting glass. The fabrication procedure allows the protection of the cleaved optical fiber end faces, which serve as the two mirrors of the FPI, from damage, thus ensuring the high visibility of the FPI sensor. The FPI's complete openness permits the analyte of interest fluids to flow smoothly into the cavity and interact directly with the light, obviating the need for additional assistance. The fabrication experiment demonstrates that the fabrication procedure can readily achieve a visibility of over 20 dB. Refractive index testing indicates that the sensor exhibits a sensitivity of over 1116 nm/RIU within the range of 1.334-1.375. A comparison of temperature investigations indicates that the fully open cavity FPI fabricated by bonding with low-temperature melting glass exhibits relatively lower temperature immunity than that bonded with ceramic glue. Both have a relatively low temperature fluctuation within the temperature range of 40°C-100°C, with less than 3 nm and 4.5 nm in the over 60°C changes, respectively. Our proposed fully open FPI is an economical, robust, and simple-to-fabricate structure with the potential for mass production. This renders it an appealing option for practical optofluidics applications.
format Preprint
id arxiv_https___arxiv_org_abs_2408_07354
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle In-line fiber optic optofluidic sensor based on a fully open Fabry-Perot interferometer
Duan, Dewen
Kang, Qian
Yang, Qianhui
Zhao, Zihao
Li, Na
Du, Guan-Xiang
Xie, Yi-Yuan
Optics
Applied Physics
7805
We present an all-fiber, fully open Fabry-Perot interferometer (FPI) cavity that is suitable for fluidic measurement applications. Fabrication of the FPI involves the alignment and bonding of three optical fiber sections using either ceramic glue or low-temperature melting glass. The fabrication procedure allows the protection of the cleaved optical fiber end faces, which serve as the two mirrors of the FPI, from damage, thus ensuring the high visibility of the FPI sensor. The FPI's complete openness permits the analyte of interest fluids to flow smoothly into the cavity and interact directly with the light, obviating the need for additional assistance. The fabrication experiment demonstrates that the fabrication procedure can readily achieve a visibility of over 20 dB. Refractive index testing indicates that the sensor exhibits a sensitivity of over 1116 nm/RIU within the range of 1.334-1.375. A comparison of temperature investigations indicates that the fully open cavity FPI fabricated by bonding with low-temperature melting glass exhibits relatively lower temperature immunity than that bonded with ceramic glue. Both have a relatively low temperature fluctuation within the temperature range of 40°C-100°C, with less than 3 nm and 4.5 nm in the over 60°C changes, respectively. Our proposed fully open FPI is an economical, robust, and simple-to-fabricate structure with the potential for mass production. This renders it an appealing option for practical optofluidics applications.
title In-line fiber optic optofluidic sensor based on a fully open Fabry-Perot interferometer
topic Optics
Applied Physics
7805
url https://arxiv.org/abs/2408.07354