[1] 康泽新, 孙 将, 马 林, 等. 基于双芯光纤级联布拉格光纤光栅的温度与应力解耦双测量传感系统［J］. 光学学报, 2015, 35(5): 0506004.

    Kang Zexin, Sun Jiang, Ma Lin, et al. Decoupling dual measurement sensor system of temperature and strain based on twin-core fiber cascaded with fiber Bragg grating［J］. Acta Optica Sinica, 2015, 35(5): 0506004.

[2] 赵洪霞, 程培红, 丁志群, 等. 双锥形光纤光栅实现温度、折射率和液位同时测量［J］. 中国激光, 2016, 43(10): 1010005.

    Zhao Hongxia, Cheng Peihong, Ding Zhiqun, et al. Simultaneous measurement of temperature, refractive index and liquid level based on biconical fiber gratings［J］. Chinese J Lasers, 2016, 43(10): 1010005.

[3] Jin J, Lin S, Song N F. Irradiation effect on strain sensitivity coefficient of strain sensing fiber Bragg gratings［J］. Chinese Physics B, 2014, 23(1): 254-259.

[4] 梁瑞冰, 孙琪真, 沃江海, 等. 微纳尺度光纤布拉格光栅折射率传感的理论研究［J］. 物理学报, 2011, 60(10): 104221.

    Liang Ruibing, Sun Qizhen, Wo Jianghai, et al. Theoretical investigation on refractive index sensor based on Bragg grating in micro/nanofiber［J］. Acta Physica Sinica, 2011, 60(10): 104221.

[5] Liang R B, Sun Q Z, Wo J H, et al. Investigation on micro/nanofiber Bragg grating for refractive index sensing［J］. Optics Communications, 2012, 285(6): 1128-1133.

[6] Tong L M, Lou J Y, Mazur E. Single-mode guiding properties of subwavelength-diameter silica and silicon wire waveguides［J］. Optics Express, 2004, 12(6): 1025-1035.

[7] Wang G H, Shum P P, Ho H P, et al. Modeling and analysis of localized biosensing and index sensing by introducing effective phase shift in microfiber Bragg grating (μFBG)［J］. Optics Express, 2011, 19(9): 8930-8938.

[8] Kou J L, Ding M, Feng J, et al. Microfiber-based Bragg gratings for sensing applications: A review［J］. Sensors, 2012, 12(7): 8861-8876.

[9] 马成举, 徐卫锋, 李佳美, 等. 基于微纳光纤倏逝场效应气体传感器的研究进展［J］. 激光与光电子学进展, 2015, 52(10): 100003.

    Ma Chengju, Xu Weifeng, Li Jiamei, et al. Research progress of gas sensor based on microfiber evanescent field effects［J］. Laser & Optoelectronic Progress, 2015, 52(10): 100003.

[10] Zhang Y, Lin B, Tjin S C, et al. Refractive index sensing based on higher-order mode reflection of a microfiber Bragg grating［J］. Optics Express, 2010, 18(25): 26345-26350.

[11] Lee S M, Saini S S, Jeong M Y. Simultaneous measurement of refractive index, temperature, and strain using etched-core fiber Bragg grating sensors［J］. IEEE Photonics Technology Letters, 2010, 22(19): 1431-1433.

[12] Dai J X, Yang M H, Li X B, et al. Magnetic field sensor based on magnetic fluid clad etched fiber Bragg grating［J］.Optical Fiber Technology, 2011, 17(3): 210-213.

[13] Kamikawachi R C, Abe I, Paterno A S, et al. Determination of thermo-optic coefficient in liquids with fiber Bragg grating refractometer［J］. Optics Communications, 2008, 281(4): 621-625.

[14] Iadicicco A, Campopiano S, Cutolo A, et al. Refractive index sensor based on microstructured fiber Bragg grating［J］. IEEE Photonics Technology Letters, 2005, 17(6): 1250-1252.

[15] Ran Y, Tan Y N, Sun L P, et al. 193 nm excimer laser inscribed Bragg gratings in microfibers for refractive index sensing［J］. Optics Express, 2011, 19(19): 18577-18583.

[16] Dai J X, Yang M H, Li X B, et al. Magnetic field sensor based on magnetic fluid clad etched fiber Bragg grating［J］. Optical Fiber Technology, 2011, 17(3): 210-213.

[17] Fang X, Liao C R, Wang D N. Femtosecond laser fabricated fiber Bragg grating in microfiber for refractive index sensing［J］. Optics Letters, 2010, 35(7): 1007-1009.

[18] Zhang W, Liu Y G, Zhou H. Theoretical investigation on the temperature characteristics of liquid-cladding micro/nanofiber Bragg grating［J］. Journal of Modern Optics, 2014, 61(13): 1097-1102.