Abstract

Transmission noise gratings were copied from silver halide emulsion into dichromated gelatin in an index matching tank. The distance between the two plates was varied to alter the angular spread of recorded scatter in the dichromated gelatin plate. Results are presented in the form of angular transmittance data and scattering rings which show that the diffraction efficiency and angular selectivity of the transmitted noise decrease with a reduction in noise gratings recorded at high angles.

© 1990 Optical Society of America

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References

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  1. K. Biedermann, “The Scattered Flux Spectrum of Photographic Materials for Holography,” Optik 31, 367–389 (1970).
  2. R. R. A. Syms, L. Solymar, “Noise Gratings in Photographic Emulsion,” Opt. Commun. 43, 107–110 (1982).
    [CrossRef]
  3. L. Solymar, J. C. W. Newell, “Silver Halide Noise Gratings Recorded in Dichromated Gelatin,” Opt. Commun. 73, 273–276 (1989).
    [CrossRef]
  4. J. M. Moran, I. P. Kaminow, “Properties of Holographic Gratings Photoinduced in PMMA,” Appl. Opt. 12, 1964–1970 (1973).
    [CrossRef] [PubMed]
  5. M. R. B. Forshaw, “Explanation of the Two-Ring Diffraction Phenomenon Observed by Moran and Kaminow,” Appl. Opt. 13, 2 (1974).
    [CrossRef] [PubMed]

1989 (1)

L. Solymar, J. C. W. Newell, “Silver Halide Noise Gratings Recorded in Dichromated Gelatin,” Opt. Commun. 73, 273–276 (1989).
[CrossRef]

1982 (1)

R. R. A. Syms, L. Solymar, “Noise Gratings in Photographic Emulsion,” Opt. Commun. 43, 107–110 (1982).
[CrossRef]

1974 (1)

1973 (1)

1970 (1)

K. Biedermann, “The Scattered Flux Spectrum of Photographic Materials for Holography,” Optik 31, 367–389 (1970).

Biedermann, K.

K. Biedermann, “The Scattered Flux Spectrum of Photographic Materials for Holography,” Optik 31, 367–389 (1970).

Forshaw, M. R. B.

Kaminow, I. P.

Moran, J. M.

Newell, J. C. W.

L. Solymar, J. C. W. Newell, “Silver Halide Noise Gratings Recorded in Dichromated Gelatin,” Opt. Commun. 73, 273–276 (1989).
[CrossRef]

Solymar, L.

L. Solymar, J. C. W. Newell, “Silver Halide Noise Gratings Recorded in Dichromated Gelatin,” Opt. Commun. 73, 273–276 (1989).
[CrossRef]

R. R. A. Syms, L. Solymar, “Noise Gratings in Photographic Emulsion,” Opt. Commun. 43, 107–110 (1982).
[CrossRef]

Syms, R. R. A.

R. R. A. Syms, L. Solymar, “Noise Gratings in Photographic Emulsion,” Opt. Commun. 43, 107–110 (1982).
[CrossRef]

Appl. Opt. (2)

Opt. Commun. (2)

R. R. A. Syms, L. Solymar, “Noise Gratings in Photographic Emulsion,” Opt. Commun. 43, 107–110 (1982).
[CrossRef]

L. Solymar, J. C. W. Newell, “Silver Halide Noise Gratings Recorded in Dichromated Gelatin,” Opt. Commun. 73, 273–276 (1989).
[CrossRef]

Optik (1)

K. Biedermann, “The Scattered Flux Spectrum of Photographic Materials for Holography,” Optik 31, 367–389 (1970).

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Figures (3)

Fig. 1
Fig. 1

Recording geometry for copying transmission noise gratings into dichromated gelatin.

Fig. 2
Fig. 2

Angular transmittance scans replayed at 460 nm for transmission noise gratings copied into dichromated gelatin at separations (a) d = 0 mm, (b) d = 10 mm, (c) d = 20 mm, and (d) d = 40 mm.

Fig. 3
Fig. 3

Scattering rings for noise gratings copied into dichromated gelatin at separations (a) d = 0 mm, (b) d = 10 mm, (c) d = 20 mm, and (d) d = 40 mm.

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