Xianfan Wang scite author profile

Abstract:A fibre-optic strain sensor based on a gourd-shaped joint multimode fibre (MMF) sandwiched between two single-mode fibres (SMFs) is described both theoretically and experimentally. The cladding layers of the two MMFs are reshaped to form a hemisphere using an electrical arc method and spliced together, yielding the required gourd shape. The gourd-shaped section forms a Fabry-Perot cavity between the ends of two adjacent but noncontacting multimode fibres' core. The effectiveness of the multimode interference based on the Fabry-Perot interferometer (FPI) formed within the multimode inter-fibre section is greatly improved resulting in an experimentally determined strain sensitivity of −2.60 pm/με over the range 0-1000 με. The sensing characteristics for temperature and humidity of this optical fibre strain sensor are also investigated.

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A Humidity Sensor Based on a Singlemode-Side Polished Multimode–Singlemode Optical Fibre Structure Coated with Gelatin

Wang

Farrell

Lewis

et al. 2017

J. Lightwave Technol.

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Abstract-A novel relative humidity sensor based on a singlemode-side polished multimode-singlemode (SSPMS) fibre structure coated with gelatin material is reported. The sensing principle and fabrication method of the proposed sensor are presented. The experimental method is demonstrated to provide the optimum thickness of coating layers in order to achieve the highest sensitivity of 0.14 dB/%RH and a fast response time of 1000 ms for a given RH sensing range. The developed humidity fibre optic sensor based on a gelatin coating shows great potential for many applications such as industrial production, food processing and environmental monitoring.

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A High-Temperature Humidity Sensor Based on a Singlemode-Side Polished Multimode-Singlemode Fiber Structure

Wang

Tian

Yuan

et al. 2018

J. Lightwave Technol.

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Microscale Ag particle paste for sintered joints in high-power devices

et al. 2015

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Investigation of a novel SMS fiber based planar multimode waveguide and its sensing performance

et al. 2018

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A novel, MMI-based all-fiber structure, which consists of two single-mode fibers and a multimode fiber polished on both sides, is described. The light propagation characteristics of this fiber structure, as well as its superior sensing performance, are analyzed theoretically by using the beam propagation method (BPM). This fiber structure demonstrates a significant spectral response to changes of the surrounding refractive index (RI), and the measured results exhibit good agreement with the predicted data. The measured average RI sensitivity is as high as 151.29 nm/RIU over an RI range from 1.3450 to 1.4050, when the polished depth is 30 µm on both sides of the multimode fiber. This fiber structure can be an advantageous platform for various applications, especially for a lab-on-fiber type sensing application.

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A Review of Multimode Interference in Tapered Optical Fibers and Related Applications

Wang

Zhao

Wang

et al. 2018

Sensors

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In recent years, tapered optical fibers (TOFs) have attracted increasing interest and developed into a range of devices used in many practical applications ranging from optical communication, sensing to optical manipulation and high-Q resonators. Compared with conventional optical fibers, TOFs possess a range of unique features, such as large evanescent field, strong optical confinement, mechanical flexibility and compactness. In this review, we critically summarize the multimode interference in TOFs and some of its applications with a focus on our research project undertaken at the Optoelectronics Research Centre of the University of Southampton in the United Kingdom.

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Highly sensitive displacement sensor based on composite interference established within a balloon-shaped bent multimode fiber structure

Tian

Farrell²,

Wang

et al. 2018

Appl. Opt.

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Investigation of the self‐imaging position of a singlemode‐multimode‐singlemode optical fiber structure

Wang

Lewis

Wang

2017

Micro & Optical Tech Letters

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In this paper, a theoretical and experimental investigation of the multimode interference induced self‐imaging phenomenon in a singlemode‐multimode‐singlemode (SMS) fiber structure is described. The simulated transmission spectra based on guided modal propagation analysis and beam propagation method are presented and compared with experimental obtained results. The temperature dependence of the self‐imaging position of the SMS fiber structure is also investigated. These investigations provide excellent opportunities for multiple future applications including telecommunications and sensing.

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Xianfan Wang

Strain sensor based on gourd-shaped single-mode-multimode-single-mode hybrid optical fibre structure

A Humidity Sensor Based on a Singlemode-Side Polished Multimode–Singlemode Optical Fibre Structure Coated with Gelatin

A High-Temperature Humidity Sensor Based on a Singlemode-Side Polished Multimode-Singlemode Fiber Structure

Microscale Ag particle paste for sintered joints in high-power devices

Investigation of a novel SMS fiber based planar multimode waveguide and its sensing performance

A Review of Multimode Interference in Tapered Optical Fibers and Related Applications

Highly sensitive displacement sensor based on composite interference established within a balloon-shaped bent multimode fiber structure

Investigation of the self‐imaging position of a singlemode‐multimode‐singlemode optical fiber structure

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