Highly sensitive strain sensor based on tapered few-mode fiber.

A high sensitivity strain sensor using a sandwich structure of "single mode fiber (SMF)-few mode fiber (FMF)-single mode fiber (SMF)" was proposed and experimentally validated. The designed sensor is achieved by splicing a segment of FMF between two segments of SMFs, and then using a fiber optic fusion tapering machine to double the length of FMF. Introducing tapered optical fibers into the structure to excite more evanescent waves improves the sensitivity of the sensor to the surrounding environment. In addition, due to the fact that the FMF is tapered into a very fine shape, the tensile stress applied to the FMF will increase. Therefore, conical FMF has excellent stress concentration ability, which is easily deformed under stress, thus achieving a high strain sensitivity of -23.9 pm/με. Finally, a cascaded FBG was used to compensate for the temperature cross-sensitivity of the sensor. This strain sensor with an extremely simple structure and high sensitivity has wide application value in the industry. © 2023 Author(s). Published under an exclusive license by AIP Publishing.

Citation

Li Li, Chao Jiang, Chuanju Hu, Jiawei Gao, Longfeng Deng, Tingshui Cao, Hong Li. Highly sensitive strain sensor based on tapered few-mode fiber. The Review of scientific instruments. 2023 Jul 01;94(7)

PMID: 37486201

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