Highly sensitive curvature sensor based on asymmetrical twin core fiber and multimode fiber

Wu, Yue; Li, Pei; Jin, Wenxing; Jiang, Youchao; Yang, Yong; Shen, Y.F.; Jian, Shuisheng

doi:10.1016/j.optlastec.2017.01.007

Cited by 69 publications

(29 citation statements)

References 17 publications

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“…Table 1 shows that the sensitivities of the proposed sensor have higher curvature sensitivity and temperature sensitivity than those of the PCF-MZI and FBG (4.06 nm/m −1 and 6.3 pm/ ) ℃ [8], and MMF-PCF-MMF inscribed FBG (−1.36 nm/m −1 and 60.3 pm/℃) [9]. However, the sensor we report has lower curvature sensitivity than the four-core fiber multipath MZI (20.18 nm/m −1 ) [28], MMF-TCF(twin core fiber)-MMF (103.35 nm/m −1 ) [30], and MMF-TCSMF-MMF (−28.29 nm/m −1 ) [31], respectively, because TCSMF, TCF, and four-core fiber are a kind of specialty optical fibers with the multi-core structure separately containing only one core mode. The curvature and temperature resolutions of the sensor can be obtained by using the error analysis method when the resolution ( Dip) δ Δ of the OSA is known, and the curvature and temperature resolutions of the sensor can be represented by [32] Dip2, Dip1, Dip2, Dip1,…”

Section: Resultsmentioning

confidence: 94%

Simultaneous Curvature and Temperature Sensing Based on a Novel Mach-Zehnder Interferometer

Sun

Dong

et al. 2019

Photonic Sens

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A novel fiber inline Mach-Zehnder interferometer (MZI) is proposed for simultaneous measurement of curvature and temperature. The sensor composes of single mode-multimode-dispersion compensation-multimode-single mode fiber (MMF-DCF-MMF) structure, using the direct fusion technology. The experimental results show curvature sensitivities of −12.82 nm/m − 1 and −14.42 nm/m − 1 in the range of 0 − 0.65 m − 1 for two resonant dips, as well as temperature sensitivities of 57.6 pm/ and 74.3 ℃ pm/ within the range of 20 ℃ ℃ − 150. In addition, ℃ the sensor has unique advantages of easy fabrication, low cost, high fringe visibility of 24 dB, and high sensitivity, which shows a good application prospect in dual-parameters of sensing of curvature and temperature.

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Section: Resultsmentioning

confidence: 94%

Simultaneous Curvature and Temperature Sensing Based on a Novel Mach-Zehnder Interferometer

Sun

Dong

et al. 2019

Photonic Sens

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“…Meanwhile, the MZI with different length of PCF also shown high fringe visibility, the max attenuation depth of which were about 17.2 dB, 20.3 dB, 19.9 dB and 24.1 dB, respectively, as illustrated in Figure 3 . The max fringe visibility of our proposed MZI with SMPS fiber structure was higher than those of MZI with TCF-MMF-TCF structure (21 dB) [ 34 ] or MMF-TCSMF-MMF structure (14 dB) [ 35 ], MZI based on asymmetrical twin core fiber and multimode fiber (15 dB) [ 36 ] and some PCF interferometer structures, such as PCF-MZI with two waist-broadened tapers (11 dB) [ 37 ] or with up-tapered joints (11.5 dB) [ 38 ], normal PCF-MZI (21 dB) [ 28 ], TC-PCF MZI (10 dB) [ 16 ], TCF-PCF structure MZI (20 dB) [ 39 ] and S-tapered PCF (12 dB) [ 40 ]. In addition, it can be observed that the insertion loss of the proposed MZI is larger than that of MZI with SMF-PCF-SMF structure [ 8 ], which is due to the increase in the number of fusion.…”

Section: Experiments Results and Discussionmentioning

confidence: 99%

A Novel Strain Sensor with Large Measurement Range Based on All Fiber Mach-Zehnder Interferometer

Dong

Sun

et al. 2018

Sensors

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We have proposed a high sensitive photonic crystal fiber (PCF) strain sensor based on the Mach-Zehnder interferometer (MZI). The sensing head is formed by all-fiber in-line single mode-multimode-photonic-crystal-single mode fiber (SMPS) structure, using only the splicing method. Such a strain sensor exhibited a high sensitivity of −2.21 pm/με within a large measurement range of up to 5000 με and a large fringe visibility of up to 24 dB. Moreover, it was found that the strain sensitivity was weekly dependent of the length of PCF or MMF. In addition, the sensor exhibited the advantages of simplicity of fabrication, high sensitivity and larger fringe visibility.

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“…The bent fiber is normally approximated as an arc of the circle when the moving stage moves towards the fixed stage. The curvature of the fiber sensor can be calculated as [ 23 ]

where L and d are the initial distance and the movement distance of the moving stage, respectively. Figure 6 a shows the transmission spectra of the sensor under different bending curvatures at room temperature (20 °C).…”

Section: Experimental Setup and Resultsmentioning

confidence: 99%

Simultaneous Measurement of Curvature, Strain and Temperature Using a Twin-Core Photonic Crystal Fiber-Based Sensor

Zhao

Lou

Wang

et al. 2018

Sensors

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A novel twin-core photonic crystal fiber-based sensor for simultaneous measurement of curvature, strain and temperature is proposed. The fiber sensor is constructed by splicing the homemade twin-core photonic crystal fiber between two segments of single mode fiber. Affected by the coupling between two cores, the transmission spectrum of the fiber sensor has different wavelength responses to curvature, strain, and temperature. The maximal sensitivities to curvature, strain and temperature are 10.89 nm/m−1, 1.24 pm/με and 73.9 pm/°C, respectively. Simultaneous measurement of curvature, strain and temperature can be achieved by monitoring the wavelength shifts of selected valleys in the transmission spectrum. Contrast experiment based on traditional twin-core fiber is carried out. Experimental results demonstrate that twin-core photonic crystal fiber-based sensor has higher sensitivity and better linearity than traditional twin-core fiber-based sensor.

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Highly sensitive curvature sensor based on asymmetrical twin core fiber and multimode fiber

Cited by 69 publications

References 17 publications

Simultaneous Curvature and Temperature Sensing Based on a Novel Mach-Zehnder Interferometer

Simultaneous Curvature and Temperature Sensing Based on a Novel Mach-Zehnder Interferometer

A Novel Strain Sensor with Large Measurement Range Based on All Fiber Mach-Zehnder Interferometer

Simultaneous Measurement of Curvature, Strain and Temperature Using a Twin-Core Photonic Crystal Fiber-Based Sensor

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