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  1. F. W. Billmeyer, M. Saltzman, Principles of Color Technology (Wiley, New York, 1966), p. 67.
  2. F. W. Billmeyer, Appl. Opt. 8, 737 (1969).
    [CrossRef] [PubMed]
  3. G. Wyszecki, J. Color Appearance 1 (5), 8, 43 (1972).
  4. J. E. Tyler, F. P. Callahan, J. Opt. Soc. Am. 41, 997 (1951).
    [CrossRef]
  5. F. Grum, J. M. Patek, Tappi 48, 357 (1965); F. Grum, “Use of True Reflectance and Fluorescence for Color Evaluation of Achromatic and Chromatic Fluorescent Materials,” in Proceedings of the 17th Session, CIE, 1971 (CIE, Paris1972), paper P71.22.
  6. E. Allen, Appl. Opt. 12, 289 (1973).
    [CrossRef] [PubMed]
  7. D. Eitle, E. Ganz, Textilveredlung 3, 389 (1968).
  8. F. T. Simon, J. Color Appearance 1 (4), 5 (1972).
  9. Except in the Zeiss DMC 25, where the bandwidth increases from 5 nm at 400 nm to 10 nm at about 490 nm and stays constant at longer wavelengths. The difference does not affect the conclusions of this paper.

1973 (1)

1972 (2)

F. T. Simon, J. Color Appearance 1 (4), 5 (1972).

G. Wyszecki, J. Color Appearance 1 (5), 8, 43 (1972).

1969 (1)

1968 (1)

D. Eitle, E. Ganz, Textilveredlung 3, 389 (1968).

1965 (1)

F. Grum, J. M. Patek, Tappi 48, 357 (1965); F. Grum, “Use of True Reflectance and Fluorescence for Color Evaluation of Achromatic and Chromatic Fluorescent Materials,” in Proceedings of the 17th Session, CIE, 1971 (CIE, Paris1972), paper P71.22.

1951 (1)

Allen, E.

Billmeyer, F. W.

F. W. Billmeyer, Appl. Opt. 8, 737 (1969).
[CrossRef] [PubMed]

F. W. Billmeyer, M. Saltzman, Principles of Color Technology (Wiley, New York, 1966), p. 67.

Callahan, F. P.

Eitle, D.

D. Eitle, E. Ganz, Textilveredlung 3, 389 (1968).

Ganz, E.

D. Eitle, E. Ganz, Textilveredlung 3, 389 (1968).

Grum, F.

F. Grum, J. M. Patek, Tappi 48, 357 (1965); F. Grum, “Use of True Reflectance and Fluorescence for Color Evaluation of Achromatic and Chromatic Fluorescent Materials,” in Proceedings of the 17th Session, CIE, 1971 (CIE, Paris1972), paper P71.22.

Patek, J. M.

F. Grum, J. M. Patek, Tappi 48, 357 (1965); F. Grum, “Use of True Reflectance and Fluorescence for Color Evaluation of Achromatic and Chromatic Fluorescent Materials,” in Proceedings of the 17th Session, CIE, 1971 (CIE, Paris1972), paper P71.22.

Saltzman, M.

F. W. Billmeyer, M. Saltzman, Principles of Color Technology (Wiley, New York, 1966), p. 67.

Simon, F. T.

F. T. Simon, J. Color Appearance 1 (4), 5 (1972).

Tyler, J. E.

Wyszecki, G.

G. Wyszecki, J. Color Appearance 1 (5), 8, 43 (1972).

Appl. Opt. (2)

J. Color Appearance (2)

F. T. Simon, J. Color Appearance 1 (4), 5 (1972).

G. Wyszecki, J. Color Appearance 1 (5), 8, 43 (1972).

J. Opt. Soc. Am. (1)

Tappi (1)

F. Grum, J. M. Patek, Tappi 48, 357 (1965); F. Grum, “Use of True Reflectance and Fluorescence for Color Evaluation of Achromatic and Chromatic Fluorescent Materials,” in Proceedings of the 17th Session, CIE, 1971 (CIE, Paris1972), paper P71.22.

Textilveredlung (1)

D. Eitle, E. Ganz, Textilveredlung 3, 389 (1968).

Other (2)

Except in the Zeiss DMC 25, where the bandwidth increases from 5 nm at 400 nm to 10 nm at about 490 nm and stays constant at longer wavelengths. The difference does not affect the conclusions of this paper.

F. W. Billmeyer, M. Saltzman, Principles of Color Technology (Wiley, New York, 1966), p. 67.

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Figures (1)

Fig. 1
Fig. 1

Conventional reflectance of a yellow fluorescent textile as measured on (a) the Zeiss DMC 25 reflectance spectrophotometer, (b) the Kollmorgen KCS 15 Trilac spectrophotometer, and (c) the General Electric (Hardy) spectrophotometer. The dyeing is 7.5 g/l Disperse Flavine 8GFF on polyester, furnished courtesy of ISCC Subcommittee for Problem 18.

Equations (2)

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ρ c ( λ ) = [ E ( λ ) ρ s ( λ ) R ( λ ) + E ( λ ) α B ( λ λ F ) R ( λ F ) ] / E ( λ ) R ( λ ) ,
ρ c ( λ ) = ρ s ( λ ) + α B ( λ λ F ) [ R ( λ F ) / R ( λ ) ] .

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