[1] HUANG Jing, HUANG Yan-tang, WU Tian-jiao, et al. High efficiency white luminescence in Tm3+/Er3+/Yb3+ tri-doped oxyfluoride glass ceramic microsphere pumped by 976nm laser[J]. Journal of Luminescence, 2015, 157(1): 215–219.
[2] GRATTAN K T V, ZHANG Z Y. Fiber optic fluorescence thermometry[M]. Springer, Berlin, 2009.
[4] COLLIONS S F, BAXTER G W, WADE S A, et al. Comparison of fluorescence-based temperature sensor schemes: Theoretical analysis and experimental validation[J]. Journal of Applied Physics, 1998, 84(9): 4649-4654.
[5] ZHANG Yue-fang, YE Lin-hua, QIU Yan-qing. Cr3+∶YAG fiber-optic temperature sensor based on fluorescence lifetime measurement[J]. Journal of Sensing Technology, 2004, 17(4): 668-671.
[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] SUN T, ZHANG Z Y, GRATTAN K T V, et al. Intrinsic doped fiber fluorescence-lifetime based high temperature alarm sensor[J]. Sensors and Actuators A Physical, 1999, 76(1): 67-71.
[8] WADE S A, FORSYTH D I, GRATTAN K T V, et al. Fiber optic sensor for dual measurement of temperature and strain using a combined fluorescence lifetime decay and fiber Bragg grating technique[J]. Review of Scientific Instruments, 2001, 72(8): 3186-3190.
[9] PENG Xiao-jun, YANG Zhi-gang, WANG Jing-yun, et al. Fluorescence radiometry and fluorescence lifetime imaging: using a single molecular sensor for dual mode imaging of cellular viscosity[J]. Journal of the American Chemical Society, 2011, 133(17): 6626-6635.
[10] BESSELL E M, CATTERALL M. The regression of tumors of the head and neck treated with neutrons[J]. International Journal of Radiation Oncology Biology Physics, 1983, 9(6): 799-807.
[16] YASUHIRO M, KOHTA S, TAKAHIKO M, et al. Time-between-photons method for measuring fluorescence lifetimes[J]. Optical Review, 2013, 20(1): 1-6.
[17] WALL W A, KARPICK J T, DIBARTOLO B. Temperature de-pendence of the vibronic spectrum and fluorescence lifetime of YAG: Cr3+[J]. Journal of Physics C Solid State Physics, 1971, 4(18): 3258-3264.
[18] PARK W B, DINGH S P, SOHN K S. Discovery of a phosphor for light emitting diode applications and its structural determination, Ba(Si, Al)5(O,N)8∶Eu2+[J]. Journal of American Chemical Society, 2014, 136(6): 2363-2372.