References
- Booker, R.L., and McSparron, D.A. 1987. Photometric calibrations, NBS Special Publication 250–15. Washington, DC: National Bureau of Standards.
- Goodman, T.M., and Key, PJ. 1988. The NPL radiometric realization of the candela. Metrologia 25: 29–40.
- Boivin, L.P.; Gaertner, A.A.; and Gignac, D.S. 1987. Realization of the new candela (1979) at NRC. Metrologia 24: 139–152.
- Carreras, C. and Corrons, A. 1981. Absolute spectroradiometric and photometric scales based on an electrically calibrated pyroelectric radiometer. Appl Opt 20: 1174–1177.
- Gao, Z.; Wang, Z.; Piao, D.; Mao, S.; and Yang, C. 1983. Realization of the candela by electrically calibrated radiometers. Metrologia 19: 85–92.
- Gardner, J.L. 1987. Recent international intercomparison of basic lighting standards. Lighting in Australia 7 (no.4):21–24.
- Sapritskii, V.I. 1990. National primary radiometric standards of the USSR. Metrologia 27: 53–60.
- Jediny, V.; Krempasky, J.; Zatkovic, J.; and Nemecek, P. 1988. Luminous intensity measurement according to the new definition of the candela. Cesk Cas Fyz A38 (no.6):601–611.
- Eppeldauer, G. 1990. Longterm changes of silicon photodiodes and their use for photometric standardization. Appl Opt 29: 2289–2294.
- Ohno, Y. 1992. Silicon photodiode self-calibration using white light for photometric standards: Theoretical analysis. Appl Opt 31: 466–470
- Commission Internationale de'L'Eclairage. 1987. Methods of characterizing illuminance meters and luminance meters. CIE Publication No. 69. Wien, Austria: CIE.
- Mielenz, K.D.; Saunders, R.D.; and Shumaker, J.B. 1990. Spectroradiometric determination of the freezing temperature of gold. J Res NIST. 95: 49–67.
- Walker, J.H; Saunders, R.D.; and Hattenburg, A.T. 1987. Spectral radiance calibrations NBS Special Publication 250–1.
- Walker, J.H.; Saunders, R.D.; Jackson, J.K.; and McSparron, D.A. 1987. Spectral irradiance calibrations. NBS Special Publication 250–20. Washington, DC: National Bureau of Standards.
- Taylor, B.N., and Kuyatt, C.E. 1993. Guidelines for evaluating and expressing the uncertainty of NIST measurement results NIST Technical Note 1297. Gaithersburg, MD: National Institute of standards Technology. (For consistency in this paper, 3a values reported in earlier publications are restated to la or 2a values.)
- Houston, J.M.; Cromer, C.L.; Hardis, J.E.; and Larason, T.C. 1993. Comparison of the NIST high- accuracy cryogenic radiometer and the NIST scale of detector spectral response. To be published in Metrologia.
- Eppeldauer, G., and Hardis, J.E. 1991. Fourteen-decade photocurrent measurements with large-area silicon photodiodes at room temperature. Appl Opt 30: 3091–3099.
- Eppeldauer, G. 1991. Temperature monitored/controlled silicon photodiodes for standardization, in Surveillance Technologies. SPIE Proceedings 1479: 71–77.
- Saunders, R.D., and Shumaker, J.B. 1986. Apparatus function of a prism-grating double mono-chromator. Appl Opt 25: 3710–3714.
- Saunders, R.D., and Shumaker, J.B. 1984. Automated radiometric linearity tester. Appl Opt 23: 3504–3506.
- Cromer, C.L.; Eppeldauer, G.; Hardis, J.E.; Larason, T.C; and Parr, A.C. 1993. National Institute of Standards and Technology detector-based photometric scale. Appl Opt 32 (no.16):2936–2948.
- Commission Internationale de l'Eclairage. 1973. Procedures for the measurement of luminous flux of discharge lamps and for their calibration as working standards. CIE Publication No. 25. Wien, Austria: CIE.
- Blevin, W.R. 1970. Diffraction losses in radiometry and photometry. Metrologia 7: 39–44.