Study on fiber-optic low-coherence interferometric and fiber bragg grating sensors

被引：19

作者：

Rao Y. ^{[1
]}

机构：

[1] Key Laboratory of Optical Fiber Sensing and Communications (Ministry of Education), University of Electronic Science and Technology of China, Chengdu

来源：

Photonic Sensors | 2011年 / 1卷 / 4期

关键词：

Fabry-Perot; Fiber Bragg grating; Fiber optic sensors; Low-coherence interferometry;

D O I：

10.1007/s13320-011-0042-3

中图分类号：

学科分类号：

摘要：

This article reviews author's research work on fiber-optic sensors over the last twenty years. It includes two aspects: low-coherence interferometric sensors (LCI) and fiber Bragg grating (FBG) sensors. For LCI sensors, author's work mainly focuses on the interrogation and multiplexing methods for Fizeau and Fabry-Perot interferometric sensors at the University of Kent at Canterbury (UKC), UK, and study on novel Fabry-Perot interferometric sensors and their multiplexing methods at Chongqing University (CQU) and University of Electronic Science & Technology of China (UESTC), China, respectively. For FBG sensors, a number of multiplexing schemes are proposed and demonstrated at UKC, and then novel methods for realization of multi-parameter measurement and long-distance measurement based on the FBG sensor and its combination with other optical fiber sensors are also reported at CQU & UESTC. Thus, author's study on these two topics can be divided into two periods, at UKC and at CQU & UESTC, China. This review is presented in such a time sequence. © The Author(s) 2011.

引用

页码：382 / 400

页数：18

共 56 条

[11]

Rao Y.J., Zhu T., Yang X.C., Duan D.W., In-line fiber-optic etalon formed by hollow-core photonic crystal fiber, Optics Letters, 32, 18, pp. 2662-2664, (2007)

[12]

Rao Y.J., Deng M., Zhu T., Li H., In-line Fabry-Perot etalons based on hollow-corephotonic bandgap fibers for high-temperature applications, J. Lightwave Technol, 27, 19, pp. 4360-4365, (2009)

[13]

Rao Y.J., Deng M., Duan D.W., Zhu T., In-line fiber Fabry-Perot refractive-index tip sensor based on endlessly photonic crystal fiber, Sens. Actuators, A: Physical, 148, 1, pp. 33-38, (2008)

[14]

Tang M.DengC.P., Zhu T., Rao Y.J., Xu L.C., Han M., Refractive index measurement using photonic crystal fiber-based Fabry-Perot interferometer, Appl. Opt., 49, 9, pp. 1593-1598, (2010)

[15]

Zhu T., Ke T., Rao Y.J., Chiang K.S., Fabry-Perot optical fiber tip sensor for high temperature measurement, Opt. Commun., 283, 19, pp. 3683-3685, (2010)

[16]

Rao Y.-J., Deng M., Duan D.-W., Yang X.-C., Zhu T., Cheng G.-H., Micro Fabry-Perot interferometers in silica fibers machined by femtosecond laser, Optics Express, 15, 21, pp. 14123-14128, (2007)

[17]

Ran Z.L., Rao Y.J., Deng H.Y., Liao X., Miniature in-line photonic crystal fiber etalon fabricated by 157 nm laser micromachining, Optics Letters, 32, 21, pp. 3071-3073, (2007)

[18]

Sirks J., Berkoff T.A., Jones R.T., Singh H., Kersey A.D., Friebele E.J., Putnam M.A., In-line fiber etalon (ILFE) fiber-optic ssensors, J. Lightwave Technol., 13, 7, pp. 1256-1262, (1995)

[19]

Hitz B., To boldly go where no sensor has gone before, Photonics Spectra, 12, (2007)

[20]

Ran Z.L., Rao Y.J., Liu W.J., Liao X., Chiang K.S., Laser-micromachined Fabry-Perot optical fiber tip sensor for high-resolution temperatureindependent measurement of refractive index, Optics Express, 16, 3, pp. 2252-2263, (2008)

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