Chin-Ho Chuang scite author profile

An ultrahigh sensitivity polarimetric strain sensor is proposed based upon a four-layer D-shaped optical fiber and surface plasmon resonance (SPR) technology. In contrast to existing SPR-based sensors, which are based on changes in the refractive index of the overlayer, the sensor proposed in this study is based on the change in the refractive index of the fiber core in response to the application of an axial load. Specifically, the phase difference between the P and S waves after passing through the sensor under SPR conditions is measured using a common-path heterodyne interferometer and is used to determine the corresponding change in the refractive index of the core, from which the strain is then inversely derived. The experimental results show that the sensitivity of the proposed sensor is around 2.19×10⁴ deg/ε, i.e., degree/strain. By contrast, that of a conventional (non-SPR) polarimetric fiber sensor is just 5.2×10² deg/ε. To the best of the authors' knowledge, the sensor proposed in this study represents the first reported attempt to exploit the refractive index change of the core of an SPR-based fiber sensor for strain measurement purposes.

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Relative two-dimensional nanoparticle concentration measurement based on scanned laser pico-projection

Chuang

Sung

Huang

et al. 2012

Sensors and Actuators B: Chemical

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Four-layer d-shaped optical fiber surface plasmon resonance sensor for high-sensitivity strain measurement

Chuang

Lin

2012

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Crafting interior holes on chemically strengthened thin glass based on ultrafast laser ablation and thermo-shock crack propagations

Chuang

Chen

Chiu

et al. 2020

Sensors and Actuators A: Physical

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Chin-Ho Chuang

Application of Fiber Bragg Grating Level Sensor and Fabry-Pérot Pressure Sensor to Simultaneous Measurement of Liquid Level and Specific Gravity

Ultrahigh sensitivity polarimetric strain sensor based upon D-shaped optical fiber and surface plasmon resonance technology

Relative two-dimensional nanoparticle concentration measurement based on scanned laser pico-projection

Four-layer d-shaped optical fiber surface plasmon resonance sensor for high-sensitivity strain measurement

Crafting interior holes on chemically strengthened thin glass based on ultrafast laser ablation and thermo-shock crack propagations

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