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

1994

1993

1990

1987

1972

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

1971

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.

Appl. Phys. Lett.

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.

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

Opt. Lett.

Other

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

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).

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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)

Tables Icon

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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