[11] J. L. Sun, et al. Chin Phys, Vol.10 (2001), No.631
[12] 廖延彪. 光纤传感发展近况[J]. 光电子技术与信息(2000), 13(3):27~29.
[13] 张祝林等. 双光纤布拉格光栅温度和应变传感研究. 西安交通大学学报, 2004, Vol. 38 [14] 乔学光. 光纤光栅温度传感理论与实验. 物理学报, 2004, Vol. 53, No.2
[15] Bai Ou G, Hwa Yaw T, Xiao Ming T. IEEE Photon. Technol. Lett.(2000), Vol.12 , No.675 [16] L. Aferreira, J. L. Santos, F. Farahi. Optic Engineering (2000), Vol.39, No. 2226
[17] 郭团, 乔学光, 贾振安, 孙安, 陈长勇. 基于光纤Bragg光栅反射波带宽展宽的压力传感研
究. 光子学报, Vol.33(2004), No.3
[18] Piotr Kisala, Elzbieta Pawlik, Jan Wojcik, Waldemar Wojcik. Strain sensors based on fiber
Bragg gratings. Pror. SPIE, Vol.5576 (2004)
[19] 关柏鸥, Tam H Y, Ho S L et al. 单光纤光栅温度应变双参数传感研究[J ]. 中国激光(2001),
Vol. 28, No. 4
[20] Xu M G, Reekie L, Chow Y T et al. Optical in-fiber grating high pressure sensor. Electron Lett.
(1993), Vol. 29, No. 4
[21] 曾祥楷, 饶云江, 余般梅等. 光纤应变、温度、振动同时测量新技术的研究[J ]. 光子学报
(2001), Vol. 30, No.10 [22] 裴丽,宁提纲,谢增华,简水生. 光纤光栅制作方法. 光纤与电缆及其应用技术(2000), No.5 [23] 贾宏志,李育林,忽满利. 光纤光栅的制造方法. 激光技术, Vol.25 (2001), No.1
[24] 李志全,黄丽娟,王莉,吴飞,朱丹丹. 不同折射率调制的光纤光栅的特性及其应用. 光
学技术(2003), Vol.29, No.6
[25] 余重秀,王旭,刘海涛,任建华,王葵如. 光纤光栅的不同折射率调制及其实现方法. 光
电子·激光(2000), Vol.11, No.2
[26] P. Hariharan. Optical Holography, Principles, Techniques, and Applications.
Cambridge U. Press, 95-124, 1996
[27] 于美文. 光全息学及其应用. 北京:北京理工大学出版社,149-189,1996
[28] 张祝林,杨振坤,伍辉华,陈健,李文宏. 双光纤布拉格光栅温度和应变传感研究. 西安
交通大学学报(2004), Vol.38, No.6
[29] 孙安等. 光纤光栅温度和应力同时区分测量传感技术. 光电子激光(2003), Vol.14, No.2 [30] 王目光等. 应变和温度同时测量光纤光栅传感器的研究. 传感器技术(2001), Vol.20, No.9 [31] M. G. Xu, J. L. Archambault, L. Reekie, et al. Discrimination between strain and temperature
using dual - wavelength fiber grating sensors. Electron Lett.(1994) , 30 (13): 1085 – 1087
[32] Bhatia Vikram, Campbell David, Richard, et al. Simultaneous strain and temperature
measurement with long-period gratings. Opt . Lett . (1997) , 22 (9): 648 - 650
[33] 刘云启. 长周期光纤光栅温度和应力传感特性研究. 光子学报(1999), Vol.28, No.2 [34] Patrick H J, Williams G M, Kersey A D, et al. Hybrid fiber bragg grating/ long period fiber
grating sensor for strain/ temperature discrimination, Photonics [ J ]. Technology Lett . (1997) , 8 (9) : 1223 - 1225
[35] 马慧莲,王明华. 用于鉴别应变/温度的混合光纤光栅传感器的研究. 传感技术学报(1999),
No.4
[36] Guan Bai ou, Tam Hwa yaw, et al. Simultaneous strain and temperature measurement using a
superstructure fiber bragg grating. Photonics Technology Lett .(2000), 12 (6) :675- 677
[37] Cavaleiro P M , Araujo F M , Ferreira L A , et al . Simultaneous measurement of strain and
temperature using bragg gratings written in germanosilicate and boroncodoped germanosilicate
第16页——共17页
fibers. Photonics Technology Lett . (1999) , 11 ( 12) : 1635-1637
[38] X. Shu, D. Zhao, Y. Liu, B. Gwandu, F. Floreani, L. Zhang, I. Bennion. Effectively
Simultaneous Temperature and Strain Measurement Utilising a Dual-grating Sensor Formed by Type IA and Type IIA FBGs. IEEE(2002): 1740-1745
[39] J. Echey Arria, A. Q. uintela, C. Jauregui. Uniform fiber Bragg grating first- and second-order
diffraction wavelength experimental characterization for strain-temperature discrimination. IEEE Photonics Technology Lett.(2001), 13 (7) : 696-698
[40] James S W, Dockney M L,Tatam R P, et al. Simutaneous independent temperature and strain
measurement using in-fibre bragg grating sensors. Electron. Lett . (1996), 32 (12): 1133-1134 [41] Guan Baiou, Tam H Y, Ho S L. Simultaneous measurement of strain and temperature using a
single fibre Bragg grating. Acta Optic Silica(2000), 20 (6): 827-830( in Chinese) [42] 姜德生,梁磊,南秋明. 光纤Bragg光栅传感特性的实验研究. 传感器技术(2003), Vol.22,
No.7
[43] 周智等. 光纤布拉格光栅温度传感特性的研究. 压电与声光(2002), Vol.24, No.6 [44] 刘志国等. 高灵敏度光纤光栅温度传感及其测试研究. 南开大学学报(1999), Vol.32, No.4 [45] 张颖等. 高灵敏度光纤光栅压力传感器及其压力传感特性的研究. 光学学报(2002),
Vol.22, No.1
[46] Shu Xue wen, Zhu Xue mei, Wang Qing li. Dual resonant peaks of LP0. 15 cladding mode in
long-period grating. Electronic Letters (1999), 35 (8) : 649-651
[47] Kyung Jun Han et al. Simultaneous Measurement of Strain and Temperature Incorporating a
Long-Period Fiber Grating Inscribed on a Polarization-Maintaining Fiber, IEEE Photonics Tech. Lett.(2004), Vol.16, No.9
[48] Jiang Desheng, He Wei. Review of Applications for Fibre Grating Sensors. Journal of Optic
electronics ·Laser (光电子·激光), 2002, 13 (4) : 420-430 (in Chinese)
[49] 关柏鸥,刘志国,开桂云,董孝义. 基于悬臂梁结构的光纤光栅位移传感研究. 光子学报
(1999), Vol.28, No.11
[50] Francisco J. Arregui et al. Simultaneous Measurement of Humidity and Temperature by
Combining a Reflective Intensity-Based Optical Fiber Sensor and a Fiber Bragg Grating. IEEE Sensors Journal(2002), Vol.2, No.5
第17页——共17页
光纤布拉格光栅温度应力传感器要点
