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

[1]

Rao Y.-J., Jackson D.A., Recent progress in fibre optic low-coherence interferometry, Measurement Science and Technology, 7, 7, pp. 981-999, (1996)

[2]

Rao Y.J., Ning Y.N., Jackson D.A., Synthesized source for white-light sensing systems, Opt. Lett., 18, 6, pp. 462-464, (1993)

[3]

Rao Y.J., Jackson D.A., Improved synthesized source for white light interferometry, Electron. Lett., 30, 17, pp. 1440-1441, (1994)

[4]

Rao Y.J., Jackson D.A., Long-distance fiber-optic white light displacement sensing system using a source-synthesizing technique, Electron. Lett., 31, 4, pp. 310-312, (1995)

[5]

Rao Y.J., Jackson D.A., Prototype fiber-optic-based pressure probe with built-in temperature compensation with signal recovery by coherence reading, Appl. Opt., 32, 34, pp. 7110-7113, (1993)

[6]

Rao Y.J., Jackson D.A., Prototype fiber-optic-based ultrahigh pressure remote sensor using dual-wavelength coherence reading, Electron. Lett., 29, 24, pp. 2142-2143, (1993)

[7]

Rao Y.J., Jackson D.A., Prototype fiber-optic-based ultrahigh pressure remote sensor with built-in temperature compensation, Rev. Sci. Instrum., 65, 5, pp. 1695-1698, (1994)

[8]

Rao Y.J., Jackson D.A., Prototype fiber-optic-based fizeau medical pressure and temperature sensor system using coherence reading, Meas. Sci. and Technol, 5, 6, pp. 741-746, (1994)

[9]

Rao Y.J., Jackson D.A., Jones R., Shannon C., Development of prototype fiber-optic-based Fizeau pressure sensors with temperature compensation and signal recovery by coherence reading, J. Lightwave Technol., 12, 9, pp. 1685-1695, (1994)

[10]

Rao Y.-J., Jackson D.A., Universal fiber-optic point sensor system for quasi-static absolute measurements of multiparameters exploiting low coherence interrogation, Journal of Lightwave Technology, 14, 4, pp. 592-600, (1996)

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