Abstract
This chapter presents a wide collection of complete processing schemes for different types of holograms. The presentation is based on the various aspects of hologram recording discussed in detail in the previous chapters. Many of the well-working techniques, tested and used for quite some time in holographic processing, have appeared in various scientific journals. They may, however, be difficult to locate just when they are needed. The idea of this chapter is to provide the reader with easy but extensive reference to the existing processing schemes and techniques published so far and help holographers to further improve their processing skills as regards silver-halide materials. It is just as well to remember though that even as this book is being written the existing techniques are undergoing modifications and that new processing techniques might have appeared by the time this book is finished. The reader may also be glad to know that after some time in the field he or she will have worked out his/her own modifications, which, even though they may be small, may have a considerable influence on the final results. Finally, attention should be drawn to the fact that only processing schemes for commercial Western materials are discussed in this chapter.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
NJ. Phillips: Patterns of interference: Information and fog in holographic iamges. Opt. Eng. 30, 1299–1305 (1991)
A.A. Ward, J.C.W. Newell, L. Solymar: Image blurring in display holograms and in holographic optical elements, in Progress in Holographic Applications,ed. by J. Ebbeni, Proc. SPIE 600, 57–65 (1985)
A.A. Ward, L. Solymar: Image distortions in display holograms. J. Photogr. Sci. 34, 62–76 (1986)
T. Kubota: Image sharpening of Lippmann hologram by compensation of wavelength dispersion, in Practical Holography III, ed. by S.A. Benton. Proc. SPIE 1051, 12–17(1989)
C.S. Vikram, M.L. Billet: Optimizing image-to-background irradiance ratio in farfield inline holography. Appl. Opt. 23, 1995–1998 (1984)
R. Bexon, M.G. Dalzell, M.C. Stainer: Inline holography and the assessment of aerosols. Opt. Laser Technol. 8, 161–165 (1976)
P. Dunn, J.M. Walls: Improved microimages from inline absorption holograms. Appl. Opt. 18, 263–264 (1979)
P. Dunn, J.M. Walls: Absorption and phase inline holograms: A comparison. Appl. Opt. 18, 2171–2174 (1979)
H.I. Bjelkhagen: Investigation on the resolution that can be obtained with the Baltay holographic arrangement for the 15-foot bubble chamber. Proc. Photonics Applied to Nuclear Physics II, CERN 85–10 (1985) pp.7–49
J. Watson, P.W. Britton: Applications of optical holography to underwater visual inspection, in Optics in Engineering Measurement, ed. by W.F. Fagan. SPIE 599, 26–31 (1986)
R. Naon, H. Bjelkhagen, R. Burnstein, L. Voyvodic: A system for viewing holograms. Nucl. Instr. and Meth. A 283, 24–36 (1989)
H.I. Bjelkhagen, J. Chang, K. Moneke: High-resolution contact Denisyuk holography. Appl. Opt. 31, 1041–1047 (1992)
R. Fusek, K. Harding, J. Harris, J. Murphy: Holographic documentation camera for component study evaluation, in High Power Lasers and Applications, ed. by C.C. Tang. Proc. SPIE 270, 186–195 (1981)
B.A. Tozer, R. Glanville, A.L. Gordon, M.J. Little, J.M. Webster, D.G. Wright: Holography applied to inspection and measurement in an industrial environment. Opt. Eng. 24, 746–753 (1985)
S. Kumar, K. Singh: Bleached phase holograms exposed on Agfa-Gevaert 10E75 NAH plates. Opt. & Laser Technol. 23, 37–41 (1991)
N. Phillips: The silver halides — The workhorse of the holography business. Proc. Int’i Symp. on Display Holography, ed. by T. H. Jeong, Proc. Lake Forest College, IL 60045, Vol.111 (1989) pp.35–73
N.J. Phillips: New recommendations for the processing of Ilford plates, Physics Department, Loughborough University Note (July 1989)
R. Berkhout: Working with Kodak plates 120–01, making white light transmission holograms. Proc. Int’l Symp. Display Holography, ed. by T.H. Jeong, Lake Forest College, IL 60045, USA, Vol.111 (1989) pp.127–129
S.A. Benton: Photographic materials and their handling, in Handbook of Optical Holography, ed. by H.J. Caulfield (Academic, New York 1979) Chap.9, pp.349–366
J.O. Bolstad: Holograms and spatial filters processed and copied in position. Appl. Opt. 6, 170 (1967)
D.H. Casler, H.D. Pruett: Multaneous exposure-development of holograms on 649-F film. Appl. Phys. Lett. 10, 341–342 (1967)
K. Biedermann, N.-E. Molin: Combining hypersensitization and rapid in situ processing for time-average observation in real-time hologram interferometry. J. Phys. E 3, 669–680 (1970)
LTI, Laser Technology, Inc., 1055 VV. Germantown Pike, Norristown, PA 19404, USA.
Keystone Scientific Co., P.O.Box 22, Thorndale, PA 19372, USA.
D.B. Neumann, R.C. Penn: Objection motion compensation using reflection holography. J. Opt. Soc. Am. 62, 1373A (1972)
R.L. van Renesse, J.W. Burgmeijer: Application of Denisyuk pulsed holography to material testing, in Industrial Applications of Laser Technology, ed. by W.F. Fagan. Proc. SPIE 398, 138–148 (1983)
N. Phillips: Bridging the gap between Soviet and Western holography. Speaking notes, Holography Workshop, Lake Forest College, IL 60045, USA (1990)
N. Phillips: Bridging the gap between Soviet and Western holography, in Holography, Commemorating the 90th Aniversary of the Birth of Dennis Gabor, ed. by P. Greguss, T.H. Jeong. SPIE Institute Volume IS 8, 206–214 (1991)
J. Blyth: A novel approach to colour processing. Wavefront 2 (No.2), 23 (1987)
G. Huttmann: Holography with a frequency-doubled Nd:YAG laser, in Holography Techniques and Applications, ed. by W.P.O. Juptner. Proc. SPIE 1026, 14–21 (1988)
G. Saxby: Bypass holograms: A family of stable optical configurations for holography in unpromising environments, in Holographies Im′1′92, ed. bv Yu. Denisyuk, F. Wyrowski. Proc. SPIE 1732, 411–422 (1993)
J.M. Heaton, L. Solymar: Wavelength and angular selectivity of high diffraction efficiency reflection holograms in silver halide photographic emulsion. Appl. Opt. 24, 2931–2936 (1985)
D.J. Cooke, A.A. Ward: Reflection-hologram processing for high efficiency in silver-halide emulsions. Appl. Opt. 23, 934–941 (1984)
P.M. Boone: Secondary effects in processing holograms, in Practical Holography III, ed. by S.A. Benton. Proc. SPIE 1051, 52–59 (1989)
P.M. Boone: Secondary effects in processing silver halide holograms. Part II, in Holograph’89, ed. by Y.N. Denisyuk, T.H. Jeong. Proc. SPIE 1183, 193–200 (1990)
Author information
Authors and Affiliations
Rights and permissions
Copyright information
© 1995 Springer-Verlag Berlin Heidelberg
About this chapter
Cite this chapter
Bjelkhagen, H.I. (1995). Processing Schemes. In: Silver-Halide Recording Materials. Springer Series in Optical Sciences, vol 66. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-70756-1_7
Download citation
DOI: https://doi.org/10.1007/978-3-540-70756-1_7
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-540-58619-7
Online ISBN: 978-3-540-70756-1
eBook Packages: Springer Book Archive