[1] 顾铮,张江涛. 基于双峰谐振效应的镀金属长周期光纤光栅液体浓度传感器［J］.光学学报, 2011, 31(3): 0305003-1-0305003-7.

    GU ZH, ZHANG J T. Metal-coated long-period fiber grating liquid sensor based on dual-peak resonance［J］. Acta Optica Sinica, 2011,31(3):0305003-1-0305003-7. (in Chinese)

[2] LI Q SH,ZHANG X L,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.

[3] 胡兴柳,梁大开,陆观,等. 基于单长周期光纤光栅光谱特性的温度和应变同时区分测量［J］.光谱学与光谱分析,2010,30(3):851-854.

    HU X L,LIANG D K,LU G, et al.. Simultaneous discriminating measurement of temperature and strain based on a long period grating's spectrum［J］. Spectroscopy and Spectral Analysis,2010,30(3):851-854. (in Chinese)

[4] 张志荣, 张冠茂, 张晓萍.长周期光纤光栅应变和温度传感灵敏度研究［J］.光子学报，2009,38(1):103-106.

    ZHANG ZH R,ZHANG G M,ZHANG X P. Strain and temperature sensitivities of long period fiber grating［J］. Acta Photonica Sinica, 2009,38(1):103-106. (in Chinese)

[5] JIANG M SH,FENG D J,SUI Q M. Characteristic research on mechanically induced long-period fiber gratings［J］. Chinese Optics Letters,2009,7(2):112-114.

[6] ZHU Y N,PING SH,BAY H W, et al.. Strain-insensitive and high-temperature long-period gratings inscribed in photonic crystal fiber［J］. Optics Letters, 2005,30(4):367-369.

[7] 龚小竞, 褚家如, 王翔,等.飞秒激光多次聚焦在并行加工中的应用［J］.光学 精密工程,2008, 16(1):48-54.

    GONG X J, CHU J R, WANG X,et al.. Application of femtosecond laser multi-focusing to parallel fabrication［J］. Opt. Precision Eng., 2008, 16(1):48-54.(in Chinese)

[8] 龚小竞,褚家如,杨建军,等.改进的飞秒激光加工微型光波导方法［J］.光学 精密工程,2007,15(1):27-32.

    GONG X J,CHU J R,YANG J J, et al.. An improved way for fabricating micro-waveguide by femtosecond laser［J］. Opt. Precision Eng., 2007,15(1):27-32. (in Chinese).

[9] FORSTER E. Bent crystal X-ray optics［J］. Opt. Precision Eng., 2007,15(12):1823-1828.

[10] 张帆,侯冬,郭海鹏,等. 光纤时间频率传输的时延抖动主动补偿［J］. 光学学报, 2010,30(3):671-675.

    ZHANG F, HOU D, GUO H P, et al.. Timing delay jitter compensation of a fiber link with active delay compensation［J］. Acta Optica Sinica, 2010,30(3):671-675. (in Chinese)

[11] LIAO CH R,WANG Y,WANG D N,et al.. Femtosecond laser inscribed long-period gratings in all-solid photonic bandgap fibers［J］. Photonics Technology Letters,2010,22(6):425-427.

[12] TU H,SHIN S,JOHN R, et al.. Long-period fiber gratings spontaneously written by a mechanism markedly different from Hill grating formation［J］. Applied Physics Letters, 2010, 97(12):121104-1-1121104-3.

[13] NIKOGOSYAN D N. Long-period gratings in a standard telecom fibre fabricated by high-intensity femtosecond UV and near-UV laser pulses［J］. Measurement Science & Technology, 2006,17(5):960-967.

[14] O'REGANA B J,NIKOGOSYAN D N. Femtosecond UV long-period fibre grating fabrication with amplitude mask technique［J］. Optics Communications. OPTICS-16450,2011,8:35-39.

[15] MA J,JIN W,JIN L. Temperature characteristics of microfiber long-period-gratings fabricated by a femtosecond infrared laser［J］. SPIE, 2011,7753：77539J-1-4.

[16] LIU SH J,JIN W,JIN L, et al.. Fabrication of long-period fiber gratings by using of a femtosecond laser source［C］. Opto-Electronics and Communications Conference, 2009:1-2.

[17] EATON S,ZHANG H B, HERMAN P, et al.. Heat accumulation effects in femtosecond laser-written waveguides with variable repetition rate［J］. Optics Express, 2005,13(12):4708-4716.

[18] MARTINEZ A, DUBOV M, KHRUSHCHEV I, et al.. Photoinduced modifications in fiber gratings inscribed directly by infrared femtosecond irradiation［J］. Photonics Technology Letters, IEEE, 2006, 18(11):2266-2268.

[19] 张玲,苗飞, 冯德军,等.飞秒激光对光纤布拉格光栅的曝光实验研究［J］.中国激光,2011, 38(5):0505006-1-0505006-6.

    ZHANG L, MIAO F, FENG D J, et al.. Exposure experiment study of fiber bragg grating by femtosecond laser［J］. Chinese Journal of Lasers,2011,38(5):0505006-1-0505006-6.(in Chinese)