In-Fiber Collimator-Based Fabry-Perot Interferometer with Enhanced Vibration Sensitivity

DOI：10.3390/s19020435 期刊：Sensors 出版年份：2019 更新时间：2025-11-28 14:23:57

摘要： A simple vibration sensor is proposed and demonstrated based on an optical fiber Fabry-Perot interferometer (FPI) with an in-fiber collimator. The device was fabricated by splicing a quarter-pitch graded index fiber (GIF) with a section of a hollow-core fiber (HCF) interposed between single mode fibers (SMFs). The static displacement sensitivity of the FPI with an in-fiber collimator was 5.17 × 10?4 μm?1, whereas the maximum static displacement sensitivity of the device without collimator was 1.73 × 10?4 μm?1. Moreover, the vibration sensitivity of the FPI with the collimator was 60.22 mV/g at 100 Hz, which was significantly higher than the sensitivity of the FPI without collimator (11.09 mV/g at 100 Hz). The proposed FPI with an in-fiber collimator also exhibited a vibration sensitivity nearly one order of magnitude higher than the device without the collimator at frequencies ranging from 40 to 200 Hz. This low-cost FPI sensor is highly-sensitive, robust and easy to fabricate. It could potentially be used for vibration monitoring in remote and harsh environments.

关键词： fiber vibration sensor graded index fiber Fabry-Perot interferometer

作者： Bin Du，Xizhen Xu，Jun He，Min Zhang，Yiping Wang，Kuikui Guo，Wei Huang，Fengchan Zhang

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研究概述实验方案设备清单

研究目的

To propose and demonstrate a simple, low-cost vibration sensor based on an optical fiber Fabry-Perot interferometer with an in-fiber collimator for enhanced sensitivity in vibration monitoring.

研究成果

The quarter-pitch GIF-based FPI sensor demonstrated significantly higher static displacement and vibration sensitivities compared to SMF-FPI and half-pitch GIF-FPI sensors, making it suitable for applications in vibration monitoring in harsh environments.

研究不足

The sensor's performance may be limited at frequencies near its natural frequency (around 250 Hz), and it is optimized for a specific frequency range (40-200 Hz). Fabrication requires precise control of fiber lengths and splicing parameters.

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Tunable Laser 81940A Agilent
Used as a light source for the fiber sensor system.

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Fusion Splicer Fujikura-60S Fujikura
Used for splicing optical fibers during sensor fabrication.

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Optical Spectrum Analyzer AQ6370D Yokogawa
Measures the reflection spectra of the FPI sensors.

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Single Mode Fiber SMF-28 Corning
Used in the construction of the FPI sensor.

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Translation Stage XR25P/M Thorlabs
Used in the fiber cleaving system for precise positioning.

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Photodiode 2053 New Focus
Converts optical signals into electrical signals for detection.

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Data Acquisition Board cDAQ-9174 and 9215 National Instruments
Digitizes analog voltage signals for processing on a PC.

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Graded Index Fiber 62.5/125GI0.275 YOFC
Used as the in-fiber collimator in the FPI sensor.

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Fiber Cleaver FC-6S Sumitomo
Used for cleaving fibers to specific lengths during fabrication.

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Optical Microscope Sunway
Used to monitor the side-view images of the sensor during experiments.

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