[1] |
MELTZ G.Overview of fiber grating-based sensors[J]. SPIE,1996,2838:2~22.[2] KERSAY A D,DAVIS M A,PATRIK H J et al.Fiber grating sensors[J].J Lightwave Technol,1997,15(8):1440~1463.[3] JAMES S W,TATAM R P.Optical fiber long-period grating sensors:characteristics and application[J].Meas Sci Technol,2003,14:49~61.[4] SHU X W,LIU Y.Dependence of temperature and strain coefficients on fiber grating type and its application to simultaneous temperature and strain measurement[J].Opt Lett,2002,27(9):701~703.[5] ZHANG S L,LEE S B,XIE F.In-fiber grating sensors[J].Optics Laser Engneerinng,1999,32:405~418.[6] SCHROEDER R J,YAMATE T,UDD E.High temperature andpressure sensing for the oil industry using fiber Bragg gratings written onto side hole single mode fiber[J].SPIE,1999,3745:42~48.[7] LEE Y W,LEE B.High resolution cryogenic optical fiber sensor system using erbium-doped fiber[J].Sensors and Actuators,2002,A96:25~27.[8] UDD E,SCHULZ W L,SEIM J et al.Fiber optic distributed sensing systems for harsh aerospace environments[J].SPIE,1999,3674:136~147.[9] DIANOV E M,GOLANT K M.Grating formation in a germanium free silicon oxynitride fiber[J].Opt Lett,1997,33(3):236~339.[10] BUTOV O V,GOLANT K M.Ultra-thermo-resistant Bragg gratings written in nitrogen-doped silica fibers[J].Electron Lett,2002,38(11):523~525.[11] FORKINE M.High temperature resistant Bragg gratings fabricated in silica optical fibers[A].Australian Conference on Optical Fiber Technology[C].Queensland:Proc ACOFT96,1996.1325~1330.[12] FORKINE M.Formation of thermally stable chemical composition gratings in optical fiber[J].J O S A,2002,B19(8):1759~1765.[13] STARODUBOV D S,GRUBSKY V,FEINBERG J.Bragg grating fabrication in germanosilicate fibers by use of near-UV light:a new pathway for refractive-index changes[J].Opt Lett,1997,22(14):1086~1088.[14] PADDISON C J.Multiple fiber gratings fabricated using frequency doubled copper vapour lasers[J].Electron Lett,1998,34(25):2407~2408.[15] UDD E,LAWRENCE C M.Development of a three-axis strain and temperature fiber optic grating sensor[J].SPIE,1997,3042:229~237.[16] SCHROEDER R J,ROMAS R T,YAMATE T.Fiber optic sensors for oilfield services[J].SPIE,1999,3860:12~22.[17] LIU H Y.Observation of type Ⅰ and type Ⅱ gratings behavior in polymer optical fiber[J].Opt Commun,2003,220:337~343.[18] CHEN K V,HERMAN P R.Fabrication of strong long-period gratings in hydrogen-free fibers with 157nm F2-laser radiation[J].Opt Lett,2001,26(11):771~773.[19] TANG D Y,SHEN D Y,BLOWS J et al.Strong fiber gratings written with a frequency tripled Nd: YAG laser[J].SPIE,2001,4579:227~236.[20] DAVIS D D,GAYLORD T K,GLYTSIS E N et al.Long-period fibre grating fabrication with focused CO2 laser pulses[J].Electron Lett,1998,34:302~303.[21] YAMASAKI S.Characteristics of long-period fiber grating utilizing periodic stress relaxation[J].IEICE Trans Electron,2000,E83-C:440~443.[22] HAN V G,LEE S B.Simultaneous measurement of temperature and strain using dual long-period fiber gratings with controlled temperature and strain sensitivities[J].Opt Exp,2003,11(5):476~481.[23] RAO Y J,WANG Y P,RAN Z L et al.Novel fiber-optic sensors based on long-period fiber gratings written by high frequency CO2 laser pulse[J].J Lightwave Technol,2003,21(5):1320~1327.[24] KONDO K,NOUCHI K,MISTUYU T et al.Fabrication of long-period fiber gratings by focused irradiation of infrared femtosecond laser pulses[J].Opt Lett,1999,24(10):646~648.[25] KAKARANTZAS G,BIRKS T A,RUSSEL P S.Structural long-period gratings in photonic crystal fibers[J].Opt Lett,2002, 27(12):1013~1015. |