Abstract
Holographic information systems may stimulate further novel applications in the future, provided their inherent abilities to deal with three-dimensional image fields are explored. The concept of holographic interfacing among machine layers and the user is addressed here in the frame of optical storage, processing and delivery. Preliminary results on the amplified projection of three-dimensional, holographically reconstructed images indicate that dynamic holographic projectors can facilitate efficient three-dimensional data transfer. The fruitful exploitation of tandem photorefractive amplification and phase-conjugation stages, potentially operating in a combined pulsed/ continuous-wave mode, may open up new avenues in cineholographic archiving, large scene dynamic holographic projection and multimedia.
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References
See for example: Proc. Int. Symposium on 3D Image Technology and Arts, (Asian Tech. Info. Program; Tokyo, 1992).
P. Smiglieski, in Industrial Laser Interferometry, Proc.SPIE, 746, 29 (1987).
E Chuang and D. Psaltis, Appl. Opt., 136, 8445 (1997).
D. Psaltis and F. Mok, Scientific American, 273, 70 (1995).
J. H. Hong, I. Mcmichael, T.Y Chang, W. Christian, E. G. Paek, Opt. Eng. 34, 2193 (1995).
K. Curtis and D. Psaltis, Appl. Opt. 33, 5396 (1994).
S. I Stepanov, Reports on Progress in Physics, 57, 39 (1994).
J.P. Huignard and P. Gunter, Eds, Photorefractive Materials and Applications I &II (Springer Verlag; Berlin, 1989–1991).
S. M. Silence, D.M. Burland and W.E. Moerner, in Photorefractive Effects and Materials, D. Nolte, Ed. (Kluwer Academic Publishers; Boston, 1995).
K. Hirao, J. Non-Crystal. Solids, 196, 16 (1996).
S. Mailis, L. Boutsikaris, N. A. Vainos, C. Xirouhaki, G. Vasiliou, N. Garawal, G. Kyriakidis and H. Fritzsche, Appl. Phys. Lett. 69, 2459 (1996).
C. Grivas, D.S. Gill, S. Mailis, L. Boutsikaris and N.A. Vainos, Appl. Phys. A66, 201(1998).
J.J.P. Drolet, E. Chuang, G. Barbastathis and D. Psaltis, Opt. Lett., 22, 552 (1997).
D. Psaltis, F. Mok, H.Y.S. Li, Opt. Lett., 19, 210 (1994).
H. Ranjbenbach, S. Bann, and J.P. Huignard, Opt. Lett., 17, 1712(1992).
G. Barbastathis and D. Psaltis, Opt. Lett. 21, 432 (1996).
C. Alves, G. Pauliat and G. Roosen, Opt. Lett., 19, 1894 (1994).
C. Denz, T. Dellwig, J. Lembcke and T. Tschudi, Opt. Lett., 21, 278 (1996).
B. J. Goertzen and P. Mitkas, Opt. Eng., 35, 1847 (1996).
P. A. Mitkas, G. Betzos, and L. J. Irakliotis, IEEE Computer, 31, 45 (1998).
G. A. Betzos, K. G. Richling, and P. A. Mitkas, in Proc. 4th Int. Workshop on Multimedia DBMS, pp. 190–197. (IEEE Comp. Soc. Press; Dayton, Ohio, August 5–7, 1998).
S. Cambell, Y.H. Szang and P.Y. Yen., Opt. Commun., 123, 27 (1996).
P. Mitkas, G.A. Betzos, S. Mailis and N.A. Vainos, Proc. SPIE, 3388, (in print) (1998–9).
J.-P. Huignard US Patent 4,458,981
N.A. Vainos and M.C. Gower, J. Opt. Soc. Am., B 8, 2355 (1991).
B.P.Ketchel, G. Woods, R.J. Anderson and G. J. Salamo, Appl. Phys. Lett., 71, 7(1997).
S. Mailis and N.A. Vainos, Appl. Opt., 32, 7285 (1993).
N. A. Vainos and M.C. Gower, in Proc. Ninth Quantum Electronics Conference QE-9 (Inst. Of Physics; Oxford UK, 1989).
N.A. Vainos and M.C. Gower, in Proc. Topical meeting on Photorefractive Materials, Effects and Devices II (Opt. Soc. Am.-Soc. Franc. Opt.; Aussois, France, 1990).
S. Breugnot, H. Rajbenbach, M. Defour and J.-P. Huignard, Opt. Lett., 20, 447(1995).
V. Tornad, S. Mailis, L Boutsikaris and N.A. Vainos, in Academie-Verlag Series in Optical Metrology, W. Juptner and W. Osten, Eds, v 3, p.228 (Acad.-Verlag; Berlin 1997).
S. Breugnot, H. Rajbenbach, M. Defour and J.-P. Huignard, Opt. Lett., 20, 1568(1995).
N. A. Vainos, S. Mailis and M. C. Gower, Appl. Phys. Lett., 60, 1529 (1992).
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Vainos, N.A. et al. (2000). Dynamic Holographic Image Projection: The Key to Optical Interfacing. In: Fotakis, C., Papazoglou, T.G., Kalpouzos, C. (eds) Optics and Lasers in Biomedicine and Culture. Series of the International Society on Optics Within Life Sciences, vol 5. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-56965-4_3
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DOI: https://doi.org/10.1007/978-3-642-56965-4_3
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