(en) Condit, Harold R., « Spectral energy distribution of daylight », JOSA, vol. 54, no 7, , p. 937–944 (DOI10.1364/JOSA.54.000937, lire en ligne, consulté le ).
(en) Henderson, Stanley Thomas, « The spectral energy distribution of daylight », British Journal of Applied Physics, vol. 14, no 3, , p. 125–131 (DOI10.1088/0508-3443/14/3/307), (en) Henderson, Stanley Thomas, « The spectral energy distribution of daylight », British Journal of Applied Physics, vol. 15, no 8, , p. 947–952 (DOI10.1088/0508-3443/15/8/310).
(en) Parry Moon, « Proposed standard solar-radiation curves for engineering use », Journal of the Franklin Institute, vol. 230, no 5, , p. 583–617 (DOI10.1016/S0016-0032(40)90364-7).
(en) Kenneth L. Kelly, « Lines of Constant Correlated Color Temperature Based on MacAdam’s (u,v) Uniform Chromaticity Transformation of the CIE Diagram », JOSA, vol. 53, no 8, , p. 999–1002 (DOI10.1364/JOSA.53.000999, lire en ligne)
(en) John L. Simonds, « Application of Characteristic Vector Analysis to Photographic and Optical Response Data », JOSA, vol. 53, no 8, , p. 968–974 (DOI10.1364/JOSA.53.000968, lire en ligne)
(en) Di-Yuan Tzeng, « A review of principal component analysis and its applications to color technology », Color Research & Application, vol. 30, no 2, , p. 84–98 (DOI10.1002/col.20086)
(en) Deane B. Judd, « Spectral Distribution of Typical Daylight as a Function of Correlated Color Temperature », JOSA, vol. 54, no 8, , p. 1031–1040 (DOI10.1364/JOSA.54.001031, lire en ligne)
Parmi les études des années 1960 et 1970 :
(en) G. T. Winch, M. C. Boshoff, C. J. Kok, and A. G. du Toit, « Spectroradiometric and Colorimetric Characteristics of Daylight in the Southern Hemisphere: Pretoria, South Africa », JOSA, vol. 56, no 4, , p. 456–464 (DOI10.1364/JOSA.56.000456, présentation en ligne) : « The derived chromaticities were found to be much closer to the full radiator locus than those previously published, which had been obtained in the northern hemisphere »
espacenet.com
v3.espacenet.com
Pour des exemples commerciaux de fluorescents aux halophosphates de calcium, voir Brevet US 5447660 Method for making a calcium halophosphate phosphor ou Brevet US 6666993 Single component calcium halophosphate phosphor.
itu.int
ITU-R BT.470-6, conventional television systems [1]
opticsinfobase.org
(en) Condit, Harold R., « Spectral energy distribution of daylight », JOSA, vol. 54, no 7, , p. 937–944 (DOI10.1364/JOSA.54.000937, lire en ligne, consulté le ).
(en) Kenneth L. Kelly, « Lines of Constant Correlated Color Temperature Based on MacAdam’s (u,v) Uniform Chromaticity Transformation of the CIE Diagram », JOSA, vol. 53, no 8, , p. 999–1002 (DOI10.1364/JOSA.53.000999, lire en ligne)
(en) John L. Simonds, « Application of Characteristic Vector Analysis to Photographic and Optical Response Data », JOSA, vol. 53, no 8, , p. 968–974 (DOI10.1364/JOSA.53.000968, lire en ligne)
(en) Deane B. Judd, « Spectral Distribution of Typical Daylight as a Function of Correlated Color Temperature », JOSA, vol. 54, no 8, , p. 1031–1040 (DOI10.1364/JOSA.54.001031, lire en ligne)
Parmi les études des années 1960 et 1970 :
(en) G. T. Winch, M. C. Boshoff, C. J. Kok, and A. G. du Toit, « Spectroradiometric and Colorimetric Characteristics of Daylight in the Southern Hemisphere: Pretoria, South Africa », JOSA, vol. 56, no 4, , p. 456–464 (DOI10.1364/JOSA.56.000456, présentation en ligne) : « The derived chromaticities were found to be much closer to the full radiator locus than those previously published, which had been obtained in the northern hemisphere »
philipslumileds.com
(en) Philips, « Optical Testing for SuperFlux, SnapLED and LUXEON Emitters » : « CIE has defined the color coordinates of several different white Illuminants, but within Lumileds, CIE Illuminant E is used for all color calculations »