[1] Eppeldauer G P, Yoon H W, Zeng J, et al. Extension of the NIST spectral power-responsivity calibration service to 2 500 nm[J]. Metrologia, 2012, 49: 112-114.
[2] Fehlmann1 A, Schmutz GKopp W, Winkler R, et al. Fourth World Radiometric Reference to SI radiometric scale comparison and implications for on-orbit measurements of the total solar irradiance[J]. Metrologia, 2012, 49(2): 34-38.
[3] Zhang Jianmin, Lin Yandong, Shao Jing, et al. A standard facility for spectral response measurement of silicon photodiodes[J]. Metrologia, 1998, 19(3): 194-198. (in Chinese)
[4] Zheng Xiaobing, Wu Haoyu, Zhang Junping, et al. Calibration and standard transfer method of high precision optical radiation[J]. Chinese Science Bulletin, 2000, 45(12): 1341-1344. (in Chinese)
[5] Li Jianjun, Shi Xueshun, Zheng Xiaobing, et al. Research of domestic comparison experiment of cryogenic radiometer[J]. Science China, 2011, 41(6): 749-755. (in Chinese)
[7] Li Jianjun, Zheng Xiaobing, Lu Yunjun, et al. Accurate calibration of the spectral responsivity of silicon trap detectors between 350 nm and 1 064 nm[J]. Chinese Journal of Physics, 2009, 58(9): 6273-6278. (in Chinese)
[8] Ingmar Muller, Uwe Johannsen, Ulrike Linke, et al. Predictable quantum efficient detector:II. Characterization and confirmed responsivity[J]. Metrologia, 2013, 50(4): 395-401.
[9] Foukal P V, Kochling H, Miller P. Cryogenic absolute radiometer as laboratory irradiance standards, remote sensing detectors and pyroheliometers[J]. Appl Opt, 1990, 29(7):988-993.
[10] Gentile T R, Houston J M, Hardis J E, et al. The NIST high accuracy cryogenic radiometer[J]. Appl Opt, 1996, 35(7):1056-1068.
[11] Li Shuang. The continuous spectral radiometric calibration at a wide spectrum based on cryogenic radiometer[D]. Hefei: Anhui Institute of Optics and Fine Mechanics(AIOFM), Chinese Academy of Sciences(CAS), 2006. (in Chinese)
[12] Taylor B N, Kuyatt C E. Guidelines for evaluating and expressing the uncertainty of NIST measurement results[Z]. NIST Technical Note 1297, 1994.