Abstract
Holography is a powerful optical technique for recording and displaying 3D information. In this chapter we discuss the application of holography in the display of tomographic data. It helps to have a good understanding of 3D perception in order to determine whether holography can be used beneficially in the display of scientific and medical data. For this reason, this chapter begins with an overview of the mechanisms which help us perceive the world in three dimensions. Later, we shall refer to these mechanisms to evaluate the various holographic techniques available.
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References
Barnard, E. (1988). Optimal error diffusion for computer-generated holograms. J. Opt. Soc. Am. A 5:1803–1817.
Bazargan, K. (1983). Review of colour holography, in Proc. SPIE391 (S. A. Benton, ed.), pp. 11–18. Los Angeles, CA.
Bazargan, K. (1985). A practical, portable system for white-light display of transmission holograms using dispersion compensation, in Proc. SPIE523 (L. Huff, ed.), pp. 24–25. Los Angeles, CA.
Bazargan, K. (1986). A new method of colour holography, in Proc. SPIE673 (J. Ke and R. J. Pryputniewicz, eds.), pp. 68–70. Beijing, China.
Bazargan, K., Chen, X. Y., Hart, S., Mendes, G., and Xu, S. (1988). Beam ratio in multiple-exposure volume holograms. J. Phys. D: Appl. Phys. 21:S160–S163.
Bazargan, K. and Forshaw, M. R. B. (1980). An image-plane hologram with non-image-plane motion parallax. Opt. Comm. 32:45–47.
Benton, S. A. (1969). Hologram reconstructions with extended incoherent sources. J. Opt. Soc. Am. 59:1545–1546.
Benton, S. A. (1978). Achromatic images from white-light transmission holograms. J. Opt. Soc. Am. 68:1441.
Benton, S. A. (1982). Survey of holographic stereograms, in Proc. SPIE367 (J. J. Pearson, ed.), pp. 15–19.
Brown, B. R. and Lohman, A. W. (1966). Complex spatial filtering with binary masks. Appl. Opt. 5:967–969.
Burckhardt, C. B. (1966). Display of holograms in white light. Bell. Syst. Tech. J. 45:1841–1844.
De Bitetto, D. J. (1966). White-light viewing of surface holograms by simple dispersion compensation. Appl. Phys. Lett. 9:417–418.
De Bitetto, D. J. (1969). Holographic panoramic stereograms synthesized from white light recordings. Appl. Opt. 8:1740–1741.
Denisyuk, Y. N. (1962). Photographic reconstruction of the optical properties of an object in its own scattered radiation field. Sov. Phys. Dokl. 7:543–545.
Hariharan, P. (1983). Colour holography, in Progress in Optics20 (E. Wolf, ed.) North-Holland, Amsterdam.
Hariharan, P. (1984). Optical Holography. Cambridge University Press, Cambridge.
Hart, S. J. and Dalton, M. N. (1990). Display holography for medical tomography, in Proc. SPIE1212 (S. A. Benton, ed.), pp. 116–135. Los Angeles, CA.
Johnson, K. M., Armstrong, M., Hesselink, L., and Goodman, J. W. (1985). Multiple multiple-exposure hologram. Appl. Opt. 24:4467–4472.
Johnson, K. M., Hesselink, L. and Goodman, J. W. (1982). Multiple exposure holographic display of CT medical data, in Proc. SPIE367, pp. 149–154.
Keane, B. E. (1983). Holographic three-dimensional hard copy for medical computer graphics, in Proc. SPIE361 (E. Herron, ed.), pp. 164–168.
Kostuk, R. K. (1989). Comparison of models for multiplexed holograms. Appl. Opt. 28:771–777.
Kostuk, R. K., Goodman, J. W., and Hesselink, L. (1986). Volume reflection holograms with multiple gratings: an experimental and theoretical evaluation. Appl. Opt. 25:4362–4369.
Leith, E. N. and Upatnieks, J. (1964). Wavefront reconstruction with diffuse illumination and three-dimensional objects. J. Opt. Soc. Am. 54:1295–1301.
Lin, L. H. (1969). Hologram formation in hardened dichromated gelatin films. Appl. Opt. 8:963–966.
McCrickerd, J. T. and George, N. (1968). Holographic stereogram from sequential component photographs. Appl. Phys. Lett. 12:10–12.
Paques, H. (1966). Achromatization of holograms. Proc. IEEE 54:1195–1196.
Rotz, F. B. and Friesem, A. A. (1966). Holograms with non-pseuedoscopic real images. Appl. Phys. Lett. 8:146–148.
Shankoff, T. A. (1968). Phase holograms in dichromated gelatin. Appl. Opt. 7:2101–2105.
Syms, R. R. A. (1989). Practical Volume Holography. Oxford University Press, Oxford.
Walker, J. L. and Benton, S. A. (1989). In-situ swelling for holographic color control, in Proc. SPIE1051 (S. A. Benton, ed.), pp. 192–199. Los Angeles, CA.
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© 1992 Springer Science+Business Media New York
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Bazargan, K. (1992). Holographic Display of 3D Data. In: Frank, J. (eds) Electron Tomography. Springer, Boston, MA. https://doi.org/10.1007/978-1-4757-2163-8_12
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DOI: https://doi.org/10.1007/978-1-4757-2163-8_12
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