[1] Wang Yufeng, Gao Fei, Zhu Chengxuan, et al.. Raman lidar for atmospheric temperature, humidity and aerosols up to troposphere height[J]. Acta Optica Sinica, 2015, 35(3): 0328004.

[2] Jiang Junfeng, He Pan, Liu Tiegen, et al.. Research of temperature-stable fiber Bragg grating sensing demodulation based on composite wavelength references[J]. Acta Optica Sinica, 2015, 35(10): 1006005.

[3] Liao Tianjun, Lin Bihong, Yang Zhimin. Temperature monitoring for concentrated photovoltaic power system based on optical fiber temperature sensor[J]. Laser & Optoelectronics Progress, 2014, 51(5): 050602.

[4] Lü Weiwei, Xu Feng, Yu Benli. All-fiber Mach-Zehnder temperature sensor based on inter-modal interference[J]. Laser & Optoelectronics Progress, 2014, 51(5): 050605.

[5] Wang Xue, Lu Yuangang, Zhang Xuping, et al.. Calculation method of strain and temperature coefficients for fibers with multimode acoustic waveguide structure[J]. Acta Optica Sinica, 2015, 35(6): 0606003.

[6] Wade S A, Collins S F, Baxter G W. Fluorescence intensity ratio technique for optical fiber point temperature sensing[J]. Journal of Applied physics, 2003, 94(8): 4743-4756.

[7] Du Xinchao, Zhou Libin, He Zhengquan, et al.. A fiber-optic temperature sensor based on dual fluorescence by using FIR method[J]. Chinese J Lasers, 2015, 42(8): 0805002.

[8] Grattan K T V, Zhang Z Y. Fiber optic fluorescence thermometry[M]. Berlin: Springer Science & Business Media, 1995.

[9] Luo Xixian, Cao Wanghe, Sun Fei. The development of silicate matrix phosphors with broad excitation band for phosphorconvered white LED[J]. Chinese Science Bulletin, 2008, 53(19): 2923-2930.

[10] Lee J S, Kim Y J. Effects of barium on luminescent properties of Sr2-xBaxSiO4∶Eu2+ nanoparticles[J]. Ceramics International, 2013, 39(1): S555-S558.

[11] Gandhi S, Sakthivel K, Kwon B J, et al.. A novel efficient mesoporous silica assisted green emitting phosphors-an exotic remote phosphor with high quantum yield[J]. RSC Advances, 2015, 5(55): 44192-44197.

[12] Eagleman Y, Bourret-Courchesne E, Derenzo S E. Investigation of Eu doped barium silicates as scintillators[J]. Nuclear Science, IEEE Transactions on, 2012, 59(2): 479-486.

[13] Hsu W H, Sheng M H, Tsai M S. Preparation of Eu-activated strontium orthosilicate (Sr1.95SiO4∶Eu0.05) phosphor by a sol-gel method and its luminescent properties[J]. Journal of Alloys and Compounds, 2009, 467(1): 491-495.

[14] Lee S H, Young H, Kang Y C. Characteristics of α′-and β-Sr2SiO4∶Eu2+ phosphor powders prepared by spray pyrolysis[J]. Ceramics International, 2010, 36(4): 1233-1238.

[15] Bhatkar V B, Omanwar S K, Moharil S V. Combustion synthesis of silicate phosphors[J]. Optical Materials, 2007, 29(8): 1066-1070.

[16] Kang H S, Hong S K, Kang Y C, et al.. The enhancement of photoluminescence characteristics of Eu-doped barium strontium silicate phosphor particles by co-doping materials[J]. Journal of Alloys and Compounds, 2005, 402(1): 246-250.

[17] Song Y H, Chung E J, Song S H, et al.. Enhancement of photoluminescent properties of green-emitting (Ba2-xSrx)SiO4 silicate phosphor using Eu2O3@B2O3 core-shells for white LED applications[J]. Materials Letters, 2013, 110: 34-37.

[18] Lee S H, Koo H Y, Lee S Y, et al.. Effect of BaF2 as the source of Ba component and flux material in the preparation of Ba1.1Sr0.88SiO4∶Eu0.02 phosphor by spray pyrolysis[J]. Ceramics International, 2010, 36(1): 339-343.

[19] George N C, Denault K A, Seshadri R. Phosphors for solid-state white lighting[J]. Annual Review of Materials Research, 2013, 43: 481-501.

[20] Antic-Fidancev E. Simple way to test the validity of 2S+ 1LJ barycenters of rare earth ions (e.g.4f2, 4f3 and 4f6 configurations) [J]. Journal of Alloys and Compounds, 2000, 300: 2-10.

[21] Zhang W, Yin M, He X, et al.. Size dependent luminescence of nanocrystalline Y2O3∶Eu and connection to temperature stimulus [J]. Journal of Alloys and Compounds, 2011, 509(8): 3613-3616.