[1] VENGSARKAR A M, LEMAIR P J, JUDKINS J B,
et al.. Long-period fiber gratings as band-rejection filters[J].
Lightwave Technology J., 1996, 14(1):58-65. [2] CHIANG K S, LIU Q. Long-period grating devices for application in optical communication[C]. Proc. 5th Int. Conf. Opt. Commun. Netw. 2nd Int. Symp. Adv. Trends Fiber Opt. Appl.(ICOCN/ATFO). 2006. 128-133. [3] DEPARIS O, KIYAN R, POTTIEZ O,
et al.. Bandpass filters based on π-shifted long-period fiber gratings for actively mode-locked erbium fiber lasers[J].
Optics Letters, 2001, 26(16):1239-1241. [4] 苗飞, 张玲, 冯德军, 等. 应用800 nm飞秒 制备长周期光纤光栅[J]. 光学 精密工程, 2012, (4):685-691. MIAO F, ZHANG L, FENG D J,
et al.. Inscription of long period fiber gratings using 800 nm femtosecond laser[J].
Opt. Precision Eng., 2012, (4):685-691.(in Chinese) [5] BHATIA V, VENGSARKAR A M. Optical fiber long-period grating sensors[J].
Opt. Lett., 1996, 21(9):692-694. [6] 王义平, 饶云江, 胡爱姿, 等. 长周期光纤光栅扭曲传感器[J]. 光学学报, 2002, 22(9):1096-1099. WANG Y P, RAO Y J, HU A Z,
et al.. A novel long-period fiber grating torsion sensor[J].
Acta Optica Sinica, 2002, 22(9):1096-1099.(in Chinese) [7] 饶云江, 王久玲, 朱涛, 等. 基于扭曲长周期光纤光栅的高灵敏度压力传感器[J]. 光子学报, 2007, 36(3):487-491. RAO Y J, WANG J L, ZHU T,
et al.. A high sensitivity pressure sensor based on twisted long-period fiber grating[J].
Acta Photonica Sinica, 2007, 36(3):487-491.(in Chinese) [8] 赵明富, 韩汐, 罗彬彬, 等. 长周期光纤光栅的折射率梯度响应特性[J]. 光学 精密工程, 2013, 21(2):316-322. ZHAO M F, HAN X, LUO B B,
et al.. Response characteristics of refractive-index gradient based on long-period fiber gratings[J].
Opt. Precision Eng., 2013, 21(2):316-322.(in Chinese) [9] KHALIQ S, JAMES S W, TATAM R P. Enhanced sensitivity fibre optic long period grating temperature sensor[J].
Measurement Science and Technology, 2002, 13(5):792. [10] REES N D, JAMES S W, TATAM R P,
et al.. Optical fiber long-period gratings with Langmuir-Blodgett thin-film overlays[J].
Opt. Lett., 2002, 27(9):686-688. [11] WANG Z, HEFLIN J, STOLEN R H,
et al.. Highly sensitive optical response of optical fiber long period gratings to nanometer-thick ionic self-assembled multilayers[J].
Appl. Physics Lett., 2005, 86(22):223104-223104-3. [12] WANG Z, HEFLIN J R, STOLEN R H,
et al.. Analysis of optical response of long period fiber gratings to nm-thick thin-film coatings[J].
Opt. Express, 2005, 13(8):2808-2813. [13] DEL VILLAR I, ACHAERANDIO M, MATIAS I R,
et al.. Deposition of overlays by electrostatic self-assembly in long-period fiber gratings[J].
Opt. Lett., 2005, 30(7):720-722. [14] DEL VILLAR I, MATIAS I, ARREGUI F,
et al.. Optimization of sensitivity in long period fiber gratings with overlay deposition[J].
Optics Express, 2005, 13(1):56-69. [15] DEL VILLAR I, MATIAS I R, ARREGUI F J,
et al.. Influence on cladding mode distribution of overlay deposition on long-period fiber gratings[J].
JOSA A, 2006, 23(3):651-658. [16] CUSANO A, PILLA P, CONTESSA L,
et al.. High-sensitivity optical chemosensor based on coated long-period gratings for sub-ppm chemical detection in water[J].
Appl. Physics Lett., 2005, 87(23):234105-234105-3. [17] DAVIES E, VⅡTALA R, SALOMAKI M,
et al.. Sol gel derived coating applied to long-period gratings for enhanced refractive index sensing properties[J].
J. Optics A:Pure and Appl. Optics, 2009, 11(1):015501. [18] LI Q, ZHANG X, YU Y S,
et al.. Enhanced sucrose sensing sensitivity of long period fiber grating by self-assembled polyelectrolyte multilayers[J].
Reactive and Functional Polymers, 2011, 71(3):335-339. [19] DELISA M P, ZHANG Z, SHILOACH M,
et al.. Evanescent wave long-period fiber Bragg grating as an immobilized antibody biosensor[J].
Anal. Chem., 2000, 72(13):2895-900. [20] SHIBRU H, ZHANG Y, COOPER K L,
et al.. Optimization of layer-by-layer electrostatic self-assembly processing parameters for optical biosensing[J].
Optical Eng., 2006, 45(2):024401-024401-6. [21] KIM D, ZHANG Y, COOPER K L,
et al.. Fibre-optic interferometric immuno-sensor using long period grating[J].
Electronics Lett., 2006, 42(6):324-325. [22] CHIAVAIOLI F, TRONO C, GIANNETTI A,
et al.. Characterisation of a label-free biosensor based on long period grating[J].
J. Biophotonics, 2012.DOI:10.1002/jbio.201200135 [23] PILLA P, MALACHOVSKA V, BORRIELLO A,
et al.. Transition mode long period grating biosensor with functional multilayer coatings[J].
Optics Express, 2011, 19(2):512-526. [24] PILLA P, MANZILLO P F, MALACHOVSKA V,
et al.. Development of a platform for biochemical sensing based on overlayered Long Period Gratings working in transition[C].Proceedings of Sensor, 2009IEEE, Christchurch, New Zealand, Oct. 25-28, 2009:361-366. [25] PILLA P, MANZILLO P F, MALACHOVSKA V,
et al.. Long period grating working in transition mode as promising technological platform for label-free biosensing[J].
Optics Express, 2009, 17(22):20039-20050. [26] WANG Z Y, HEFLIN J R, KEVIN VAN COTT,
et al.. Biosensors employing ionic self-assembled multilayers adsorbed on long-period fiber gratings[J].
Sens. Actuators, B, 2009, 139:618-623. [27] CHEN X, ZHANG L, ZHOU K,
et al.. Real-time detection of DNA interactions with long-period fiber-grating-based biosensor[J].
Opt. Lett., 2007, 32(17):2541-3. [28] JAN H S, PARK K N, KIM J P,
et al.. Sensitive DNA biosensor based on a long-period grating formed on the side-polished fiber surface[J].
Opt. Express, 2009, 17:3855-3860. [29] SMIETANA M, BOCK W J, MIKULIC P,
et al.. Detection of bacteria using bacteriophages as recognition elements immobilized on long-period fiber gratings[J].
Optics Express, 2011, 19(9):7971-7978. [30] TRIPATHI S M, BOCK W J, MIKULIC P,
et al.. Long period grating based biosensor for the detection of Escherichia coli bacteria[J].
Biosensors and Bioelectronics,2012, 35:308-312. [31] TANG J L, WANG J N. Chemical sensing sensitivity of long-period grating sensor enhanced by colloidal gold nanoparticles[J].
Sensors, 2008, 8(1):171-184. [32] TANG J L, CHENG S F, HSU W T,
et al.. Fiber-optic biochemical sensing with a colloidal gold-modified long period fiber grating[J].
Sensors and Actuators B:Chemical, 2006, 119(1):105-109. [33] PILLA P, IADICICCO A, CONTESSA L,
et al.. Optical chemo-sensor based on long period gratings coated with δ form syndiotactic polystyrene[J].
IEEE, 2005, 17(8):1713-1715. [34] YANG R Z, DONG W F, MENG X,
et al.. Nanoporous TiO
2/Polyion thin-film-coated long-period grating sensors for the direct measurement of low-molecular-weight analytes[J].
Langmuir, 2012, 28(23):8814-8821. [35] PLETT K. Development and characterization of polysiloxane polymer films for use in optical sensor technology[D]. Kinston:Queen's University, 2008. [36] KEITH J, PUCKETT S, GE PACEY. Investigation of the fundamental behavior of long-period grating sensors[J].
Talanta, 2003, 61(4):417-421. [37] KEITH J, HESS L C, SPENDEL W C,
et al.. The investigation of the behavior of a long period grating sensor with a copper sensitive coating fabricated by layer-by-layer electrostatic adsorption[J].
Talanta, 2006, 70(4):818-822. [38] CORRES J M, DEL I, MATIAS I R,
et al.. Fiber-optic pH-sensors in long-period fiber gratings using electrostatic self-assembly[J].
Optics Letters, 2007, 32(1):29-31. [39] CORRES J M, MATIAS I R, DEL V I,
et al.. Design of pH sensors in long-period fiber gratings using polymeric nanocoatings[J].
Sensors J., IEEE, 2007, 7(3):455-463. [40] PUCKETT S D, PACEY G E. Detection of water in jet fuel using layer-by-layer thin film coated long period grating sensor[J].
Talanta, 2009, 78(1):300-304. [41] TAN K M, TAY C M, TJIN S C,
et al.. High relative humidity measurements using gelatin coated long-period grating sensors[J].
Sensors and Actuators B:Chemical, 2005, 110(2):335-341. [42] LIU Y, WANG L, ZHANG M,
et al.. Long-period grating relative humidity sensor with hydrogel coating[J].
IEEE, 2007, 19(12):880-882. [43] CORRES J M, DEL VILLAR I, MATIAS I R,
et al.. Two-layer nanocoatings in long-period fiber gratings for improved sensitivity of humidity sensors[J].
IEEE, 2008, 7(4):394-400 [44] VENUGOPALAN T, SUN T, KTV GRATTAN. Long period grating-based humidity sensor for potential structural health monitoring[J].
Sensors and Actuators A:Physical, 2008, 148(1):57-62. [45] VIEGAS D, GOICOECHEA J, SANTOS J L,
et al.. Sensitivity improvement of a humidity sensor based on silica nanospheres on a long-period fiber grating[J].
Sensors, 2009, 9(1):519-527. [46] VIEGAS D, HERNAEZ M, GOICOECHEA J,
et al.. Simultaneous measurement of humidity and temperature based on an SiO
2-nanospheres film deposited on a long-period grating in-line with a fiber Bragg grating[J].
IEEE, 2011, 11(1):162-166. [47] CAUCHETEUR C, DEBLIQUY M, LAHEM D,
et al.. Hybrid fiber gratings coated with a catalytic sensitive layer for hydrogen sensing in air[J].
Optics Express, 2008, 16(21):16854-16859. [48] WEI X, WEI T, XIAO H,
et al.. Nano-structured pd-long period fiber gratings integrated optical sensor for hydrogen detection[J].
Sensors and Actuators B:Chemical, 2008, 134(2):687-693. [49] TANG X, REMMEL K, LAN X,
et al.. Perovskite-type oxide thin film integrated fiber optic sensor for high-temperature hydrogen measurement[J].
Anal. Chem., 2009, 81(18):7844-7848. [50] LACQUET B M, SWART P L, AMEER G. Long-period grating with sol-gel coating for CO
2detection[C]. Proceeding of Society of Photo-Optical Instrumentation Engineers(SPIE) Conference Series, Santander, Spain, June 09, 2004. 287-290. [51] KUMAR P S, SCARIA A V, VALLABHAN C P,
et al.. Long-period grating in multimode fiber for ammonia gas detection[J].
SPIE, 2003:331-335. [52] YONGA P, SUN M. Research on the NO gas-sensitive effect of long-period fiber gratings coated with film[J].
SPIE, 2008:662406-1. [53] GU Z, XU Y, GAO K. Optical fiber long-period grating with solgel coating for gas sensor[J].
Opt. Lett., 2006, 31(16):2405-2407. [54] GU Z, XU Y. Design optimization of a long-period fiber grating with sol gel coating for a gas sensor[J].
Measurement Science and Technology, 2007, 18(11):3530. [55] ZHANG J, TANG X, DONG J,
et al.. Zeolite thin film-coated long period fiber grating sensor for measuring trace chemical[J].
Opt Express, 2008, 16(11):8317-8323. [56] ZHANG J, TANG X, DONG J,
et al.. Zeolite thin film-coated long period fiber grating sensor for measuring trace organic vapors[J].
Sensors and Actuators B:Chemical, 2009, 135(2):420-425. [57] TANG X, PROVENZANO J, XU Z,
et al.. Acidic ZSM-5 zeolite-coated long period fiber grating for optical sensing of ammonia[J].
J. Mater. Chem., 2011, 21(1):181-186. [58] TANG X, TANG Z, KIM S J,
et al.. Modified ZSM-5 zeolite film-integrated fiber optic sensors for ammonia detection[J].SPIE, 2009. 2009, 7321:73120C-73120C-8. [59] TOPLISS S M, JAMES S W, DAVIS F,
et al.. Optical fibre long period grating based selective vapour sensing of volatile organic compounds[J].
Sensors and Actuators B:Chemical, 2010, 143(2):629-634. [60] 李明宇, 薛懿, 罗根, 等. 平面光波导生物传感器微流通道的不可逆封合[J]. 中国光学, 2013, 6(1):103-110. LI M Y, XUE Y, LUO G,
et al. Irreversible adherence of micro-fluidic channel of bio-sensor on slab optical waveguide[J].
Chinese Optics, 2013, 6(1):103-110.(in Chinese) [61] 周城. 基于银纳米线的类熊猫型微结构光纤传感器[J]. 发光学报, 2012, 33(10):1120-1126. ZHOU CH. Research of a near-panda micro-structured optical fiber sensor based on silver nanowires[J].
Chinese J. Luminescence, 2012, 33(10):1120-1126. (in Chinese)
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