[1] 王启明,魏光辉,高以智.光子学技术[M].北京:清华大学出版社,广州:暨南大学出版社,2002.91~107.
[2] 鲍吉龙,章献民,陈抗生 et al.光纤光栅传感器及其应用[J].激光技术,2000,24(3):174~179.
[3] GUAN B O,TAM H Y,TAO X M et al.Simultaneous strain and temperature measurement using a superstructure fiber Bragg grating[J].IEEE Photon Technol Lett,2000,12(6):675~677.
[4] AFERREIRA L,SANTOS J L,FARAHI F et al.Simultaneousmeasurement of strain and temperature using interferometrically interrogated fiber Bragg grating sensors[J].Opt Engng,2000,39(8):2226~2233.
[5] MOREY W W.Fiber optic Bragg grating sensors[J].Proc SPIE,1989,1169:98~107.
[6] RAO Y J.In-fiber Bragg grating sensors[J].Meas Sci & Technol,1997,8(4):355~375.
[7] KERSEY A D,DAVIS M A,PATRICK H J et al.Fiber grating sensors[J].J Lightwave Technol,1997,15(8):1442~1463.
[8] 贾宏志,李育林,忽满利.光纤光栅制作技术[J].激光技术,2001,25(1):23~26.
[9] 谢芳,张书练,李岩 et al.光纤光栅反射波长移动研究[J].激光技术,2002,26(2):84~85.
[10] 夏光琼,吴正茂,陈建国.光纤光栅的长度对其反射率的影响[J].激光技术,2002,26(2):106~107.
[11] 张永胜,刘爱萍,郁可.布喇格光纤反射特性及制作的理论研究[J].激光技术,1998,22(6):367~370.
[12] 张书练,李相培,谢芳 et al.用于测量液面高度的光纤光栅传感器[J].激光技术,2001,25(1):7~10.
[13] RAO Y J.Recent progress in application of in-fiber Bragg grating sensors[J].Opt Las,1999,31:297~324.
[14] QIAO X G,LI Y L.Hybrid FBG/LPFG sensor for simultaneous measuring strain and temperature of oil/gas bottomline[J].J of Opticelectronics Laser,1999,10(1):42~45.
[15] SPRIRIN V V,SHLYAGIN M G,MIRDONOV S B et al.Fiber Bragg grating sensor for petroleum hydrocarbon lake detection[J].Opt Lasers Engng,2000,32:497~503.
[16] 万里冰,武湛君,张博明 et al.应用光纤Bragg光栅测量混凝土结构内部应变[J].光电子·激光,2002,13(7):722~725.
[17] 姜德生,何伟.光纤光栅传感器的应用概况[J].光电子·激光,2002,13(4):420~430.
[18] DU W Ch,TAM H Y,DEMOKAN M S et al.A simple method to enhance temperature sensitivity of fiber grating[J].Chinese J Lasers,1997,24(1):75~77.
[19] REID M B,?ZZCAN M.Temperature dependence of fiber opticBragg gratings at low temperature[J].Opt Engng,1998,37(1):237~240.
[20] 廖延彪.光纤光学[M].北京:清华大学出版社,2000.200~204.