Abstract

We present theoretical and experimental results on the application of the two-lambda method for prolonged readout of holographic memories to shift multiplexing implemented with a spherical-wave reference beam.

© 1996 Optical Society of America

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References

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  1. D. Psaltis, M. Levene, A. Pu, G. Barbastathis, K. Curtis, Opt. Lett. 20, 782 (1995).
    [CrossRef] [PubMed]
  2. G. Barbastathis, M. Levene, D. Psaltis, “Shift multiplexing with spherical reference waves,”Appl. Opt. (to be published).
  3. K. Wagner, D. Psaltis, Appl. Opt. 26, 5061 (1987).
    [CrossRef] [PubMed]
  4. H.-Y. S. Li, D. Psaltis, Appl. Opt. 33, 3764 (1994).
    [CrossRef] [PubMed]
  5. J. J. Amodei, D. L. Staebler, Appl. Phys. Lett. 18, 540 (1971).
    [CrossRef]
  6. F. Micheron, G. Bismuth, Appl. Phys. Lett. 20, 79 (1972).
    [CrossRef]
  7. Y. Qiao, S. Orlov, D. Psaltis, R. R. Neurgaonkar, Opt. Lett. 18, 1004 (1993).
    [CrossRef] [PubMed]
  8. D. Brady, K. Hsu, D. Psaltis, Opt. Lett. 15, 817 (1990).
    [CrossRef] [PubMed]
  9. D. Psaltis, F. Mok, H.-Y. S. Li, Opt. Lett. 19, 210 (1994).
    [CrossRef] [PubMed]
  10. H. C. Külich, Opt. Commun. 64, 407 (1987).
    [CrossRef]
  11. J. D. Jackson, Classical Electrodynamics, 2nd ed. (Wiley, New York, 1975).
  12. M. P. Petrov, S. I. Stepanov, A. V. Khomenko, Photorefractive Crystals in Coherent Optical Systems (Springer-Verlag, Berlin, 1991).

1995 (1)

1994 (2)

1993 (1)

1990 (1)

1987 (2)

1972 (1)

F. Micheron, G. Bismuth, Appl. Phys. Lett. 20, 79 (1972).
[CrossRef]

1971 (1)

J. J. Amodei, D. L. Staebler, Appl. Phys. Lett. 18, 540 (1971).
[CrossRef]

Amodei, J. J.

J. J. Amodei, D. L. Staebler, Appl. Phys. Lett. 18, 540 (1971).
[CrossRef]

Barbastathis, G.

D. Psaltis, M. Levene, A. Pu, G. Barbastathis, K. Curtis, Opt. Lett. 20, 782 (1995).
[CrossRef] [PubMed]

G. Barbastathis, M. Levene, D. Psaltis, “Shift multiplexing with spherical reference waves,”Appl. Opt. (to be published).

Bismuth, G.

F. Micheron, G. Bismuth, Appl. Phys. Lett. 20, 79 (1972).
[CrossRef]

Brady, D.

Curtis, K.

Hsu, K.

Jackson, J. D.

J. D. Jackson, Classical Electrodynamics, 2nd ed. (Wiley, New York, 1975).

Khomenko, A. V.

M. P. Petrov, S. I. Stepanov, A. V. Khomenko, Photorefractive Crystals in Coherent Optical Systems (Springer-Verlag, Berlin, 1991).

Külich, H. C.

H. C. Külich, Opt. Commun. 64, 407 (1987).
[CrossRef]

Levene, M.

D. Psaltis, M. Levene, A. Pu, G. Barbastathis, K. Curtis, Opt. Lett. 20, 782 (1995).
[CrossRef] [PubMed]

G. Barbastathis, M. Levene, D. Psaltis, “Shift multiplexing with spherical reference waves,”Appl. Opt. (to be published).

Li, H.-Y. S.

Micheron, F.

F. Micheron, G. Bismuth, Appl. Phys. Lett. 20, 79 (1972).
[CrossRef]

Mok, F.

Neurgaonkar, R. R.

Orlov, S.

Petrov, M. P.

M. P. Petrov, S. I. Stepanov, A. V. Khomenko, Photorefractive Crystals in Coherent Optical Systems (Springer-Verlag, Berlin, 1991).

Psaltis, D.

Pu, A.

Qiao, Y.

Staebler, D. L.

J. J. Amodei, D. L. Staebler, Appl. Phys. Lett. 18, 540 (1971).
[CrossRef]

Stepanov, S. I.

M. P. Petrov, S. I. Stepanov, A. V. Khomenko, Photorefractive Crystals in Coherent Optical Systems (Springer-Verlag, Berlin, 1991).

Wagner, K.

Appl. Opt. (2)

Appl. Phys. Lett. (2)

J. J. Amodei, D. L. Staebler, Appl. Phys. Lett. 18, 540 (1971).
[CrossRef]

F. Micheron, G. Bismuth, Appl. Phys. Lett. 20, 79 (1972).
[CrossRef]

Opt. Commun. (1)

H. C. Külich, Opt. Commun. 64, 407 (1987).
[CrossRef]

Opt. Lett. (4)

Other (3)

J. D. Jackson, Classical Electrodynamics, 2nd ed. (Wiley, New York, 1975).

M. P. Petrov, S. I. Stepanov, A. V. Khomenko, Photorefractive Crystals in Coherent Optical Systems (Springer-Verlag, Berlin, 1991).

G. Barbastathis, M. Levene, D. Psaltis, “Shift multiplexing with spherical reference waves,”Appl. Opt. (to be published).

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Figures (3)

Fig. 1
Fig. 1

Geometry for the two-lambda technique with shift multiplexing.

Fig. 2
Fig. 2

Experimental results for the Bragg matching and selectivity properties of the two-lambda method applied to shift-multiplexed holograms.

Fig. 3
Fig. 3

Hologram reconstructions obtained with the two-lambda method.

Tables (1)

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Table 1 Two-Lambda Equations Including Refraction and Dispersion

Equations (7)

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λ 1 z 1 = λ 2 z 2 .
δ B = 1 2 ( λ 2 λ 1 - 1 ) u 1 z 2 .
u 2 / u 1 = λ 2 / λ 1 .
δ 2 = λ 2 z 2 u 2 L = λ 1 λ 2 δ 1
Δ u 2 = ± 2 λ 1 [ ( λ 2 / λ 1 ) - 1 ] u 1 c L .
D = ( N p x N p y ) / ( s 1 δ 2 ) ,
D = 2 N p y ( λ 2 λ 1 - 1 ) λ 1 z 1 .

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