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Fiber-optic accelerometer based on a modal interferometer using a thin-core fiber

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
A compact fiber-optic accelerometer based on a modal interferometer, which is fabricated by misaligned splicing of a short section of a thin-core fiber between two sections of a standard single-mode fiber, is demonstrated experimentally. A spectrum analysis method is used to detect an acceleration signal rapidly. The experimental results show that the thin-core fiber-based fiber-optic accelerometer has a minimum detectable acceleration of 3.3×10–3g (g – gravitational acceleration), and a wide frequency response range from 10 to 1200 Hz. Moreover, the proposed accelerometer exhibits the advantages of low cost, simple structure and easy fabrication.
Czasopismo
Rocznik
Strony
317--325
Opis fizyczny
Bibliogr. 19 poz., rys.
Twórcy
autor
  • Key Laboratory of Opto-Electronic Information Acquisition and Manipulation of Ministry of Education, Anhui University, Jiulong Road 111#, Hefei 230601, China
autor
  • Key Laboratory of Opto-Electronic Information Acquisition and Manipulation of Ministry of Education, Anhui University, Jiulong Road 111#, Hefei 230601, China
autor
  • Key Laboratory of Opto-Electronic Information Acquisition and Manipulation of Ministry of Education, Anhui University, Jiulong Road 111#, Hefei 230601, China
autor
  • Key Laboratory of Opto-Electronic Information Acquisition and Manipulation of Ministry of Education, Anhui University, Jiulong Road 111#, Hefei 230601, China
autor
  • Key Laboratory of Opto-Electronic Information Acquisition and Manipulation of Ministry of Education, Anhui University, Jiulong Road 111#, Hefei 230601, China
autor
  • Key Laboratory of Opto-Electronic Information Acquisition and Manipulation of Ministry of Education, Anhui University, Jiulong Road 111#, Hefei 230601, China
Bibliografia
  • [1] ZHIGANG CAO, XIAOCHUN JI, RUI WANG, ZHAO ZHANG, TAO SHUI, FENG XU, BENLI YU, Compact fiber sensor with high spatial resolution for simultaneous strain and temperature measurement, IEEE Sensors Journal 13(5), 2013, pp. 1447–1451.
  • [2] QIAN WANG, FARRELL G., WEI YAN, Investigation on single-mode–multimode–single-mode fiber structure, Journal of Lightwave Technology 26(5), 2008, pp. 512–519.
  • [3] YIZHENG ZHU, ANBO WANG, Miniature fiber-optic pressure sensor, IEEE Photonics Technology Letters 17(2), 2005, pp. 447–449.
  • [4] ZHAOBING TIAN, YAM S.S.-H., In-line single-mode optical fiber interferometric refractive index sensors, Journal of Lightwave Technology 27(13), 2009, pp. 2296–2306.
  • [5] LILI MAO, PING LU, ZEFENG LAO, DEMING LIU, JIANGSHAN ZHANG, Highly sensitive curvature sensor based on single-mode fiber using core-offset splicing, Optics and Laser Technology 57, 2014, pp. 39–43.
  • [6] PENGFEI WANG, BRAMBILLA G., MING DING, SEMENOVA Y., QIANG WU, FARRELL G., Investigation of single-mode–multimode–single-mode and single-mode–tapered-multimode–single-mode fiber structures and their application for refractive index sensing, Journal of the Optical Society of America B 28(5), 2011, pp. 1180–1186.
  • [7] JIANGTAO ZHOU, CHANGRUI LIAO, YIPING WANG, GUOLU YIN, XIAOYONG ZHONG, KAIMING YANG, BING SUN, GUANJUN WANG, ZHENYONG LI, Simultaneous measurement of strain and temperature by employing fiber Mach–Zehnder interferometer, Optics Express 22(2), 2014, pp. 1680–1686.
  • [8] JING-JING ZHU, ZHANG A.P., TIAN-HAO XIA, SAILING HE, WEI XUE, Fiber-optic high-temperature sensor based on thin-core fiber modal interferometer, IEEE Sensors Journal 10(9), 2010 pp. 1415–1418.
  • [9] MEHTA A., MOHAMMED W., JOHNSON E.G., Multimode interference-based fiber-optic displacement sensor, IEEE Photonics Technology Letters 15(8), 2003, pp. 1129–1131.
  • [10] JIANGTAO ZHOU, YIPING WANG, CHANGRUI LIAO, GUOLU YIN, XI XU, KAIMING YANG, XIAOYONG ZHONG, QIAO WANG, ZHENGYONG LI, Intensity-modulated strain sensors based on fiber in-line Mach–Zehnder interferometer, IEEE Photonics Technology Letters 26(5), 2014, pp. 508–511.
  • [11] JIANFENG WANG, YONGXING JIN, YU ZHAO, XINYONG DONG, Refractive index sensor based on all-fiber multimode interference, Optik – International Journal for Light and Electron Optics 124(14), 2013, pp. 1845–1848.
  • [12] TIAN-HAO XIA, A. PING ZHANG, BOBO GU, JING-JING ZHU, Fiber-optic refractive-index sensors based on transmissive and reflective thin-core fiber modal interferometers, Optics Communications 283(10), 2010, pp. 2136–2139.
  • [13] DE-WEN DUAN, YUN-JIANG RAO, LAI-CAI XU, TAO ZHU, MING DENG, DI WU, JUN YAO, In-fiber Fabry–Perot and Mach–Zehnder interferometers based on hollow optical fiber fabricated by arc fusion splicing with small lateral offsets, Optics Communications 284(22), 2011, pp. 5311–5314.
  • [14] YUJUAN ZHANG, LINLIN XUE, TONGXIN WANG, LI YANG, BING ZHU, QIJIN ZHANG, High performance temperature sensing of single mode–multimode–single mode fiber with thermo-optic polymer as cladding of multimode fiber segment, IEEE Sensors Journal 14(4), 2014, pp. 1143–1147.
  • [15] GUOLU YIN, SHUQIN LOU, HUI ZOU, Refractive index sensor with asymmetrical fiber Mach–Zehnder interferometer based on concatenating single-mode abrupt taper and core-offset section, Optics and Laser Technology 45, 2013, pp. 294–300.
  • [16] BUDYNAS R.G., Advanced Strength and Applied Stress Analysis, 2nd Ed., McGraw-Hill, 1999, pp. 849–857.
  • [17] FENG PENG, JUN YANG, BING WU, YONGGUI YUAN, XINGLIANG LI, AI ZHOU, LIBO YUAN, Compact fiber optic accelerometer, Chinese Optics Letters 10(1), 2012, article 011201.
  • [18] XIJUN LIU, QIFEN JIA, WENDE ZHANG, Engineering Vibration and Testing Techniques, Tianjin University, 1999, pp. 118–121.
  • [19] HAE YOUNG CHOI, MYOUNG JIN KIM, BYEONG HA LEE, All-fiber Mach–Zehnder type interferometers formed in photonic crystal fiber, Optics Express 15(9), 2007, pp. 5711–5720.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-051c728a-c4ca-42d5-9ef8-f79a6175b5e7
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