Abstract

Volume holographic recording of complex images with a double phase-conjugation mirror in a fiberlike Bi12TiO20 single crystal, mutually pumped by two separate He–Ne lasers, is experimentally demonstrated. Complex images can be stored and reconstructed by use of even a partial input image. The advantages of the small-cross-section, light-confining photorefractive sample in comparison with bulk crystal are a wider spatial bandwidth of recorded images and the possibility of recording holograms by application of smaller ac voltages.

© 1994 Optical Society of America

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References

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    [CrossRef] [PubMed]
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    [CrossRef] [PubMed]
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  6. A. A. Kamshilin, R. Ravattinen, H. Tuovinen, T. Jaaskelainen, V. V. Prokofiev, Opt. Commun. 103, 221 (1993).
    [CrossRef]
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    [CrossRef] [PubMed]
  8. M. Segev, Y. Ophir, B. Fischer, Opt. Commun. 77, 265 (1990).
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    [CrossRef]
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    [CrossRef]

1993 (1)

A. A. Kamshilin, R. Ravattinen, H. Tuovinen, T. Jaaskelainen, V. V. Prokofiev, Opt. Commun. 103, 221 (1993).
[CrossRef]

1992 (1)

M. P. Petrov, H. J. Caulfield, E. V. Mokrushina, Kvantovaya Elektron. 19, 289 (1992).

1991 (1)

1990 (1)

M. Segev, Y. Ophir, B. Fischer, Opt. Commun. 77, 265 (1990).
[CrossRef]

1989 (2)

1988 (1)

1987 (1)

1985 (1)

S. I. Stepanov, M. P. Petrov, Opt. Commun. 53, 292 (1985).
[CrossRef]

1981 (1)

A. Marrakchi, J. P. Huignard, P. Günter, Appl. Phys. 24, 131 (1981).
[CrossRef]

Caulfield, H. J.

M. P. Petrov, H. J. Caulfield, E. V. Mokrushina, Kvantovaya Elektron. 19, 289 (1992).

Cronin-Golomb, M.

M. Cronin-Golomb, Appl. Phys. Lett. 54, 2189 (1989).
[CrossRef]

Dunning, G. J.

Ewbank, M. D.

Fischer, B.

M. Segev, Y. Ophir, B. Fischer, Opt. Commun. 77, 265 (1990).
[CrossRef]

S. Weiss, S. Sternklar, B. Fischer, Opt. Lett. 12, 114 (1987).
[CrossRef] [PubMed]

Günter, P.

A. Marrakchi, J. P. Huignard, P. Günter, Appl. Phys. 24, 131 (1981).
[CrossRef]

Huignard, J. P.

A. Marrakchi, J. P. Huignard, P. Günter, Appl. Phys. 24, 131 (1981).
[CrossRef]

Jaaskelainen, T.

A. A. Kamshilin, R. Ravattinen, H. Tuovinen, T. Jaaskelainen, V. V. Prokofiev, Opt. Commun. 103, 221 (1993).
[CrossRef]

Kamshilin, A. A.

A. A. Kamshilin, R. Ravattinen, H. Tuovinen, T. Jaaskelainen, V. V. Prokofiev, Opt. Commun. 103, 221 (1993).
[CrossRef]

Marrakchi, A.

A. Marrakchi, J. P. Huignard, P. Günter, Appl. Phys. 24, 131 (1981).
[CrossRef]

Mokrushina, E. V.

M. P. Petrov, H. J. Caulfield, E. V. Mokrushina, Kvantovaya Elektron. 19, 289 (1992).

Ophir, Y.

M. Segev, Y. Ophir, B. Fischer, Opt. Commun. 77, 265 (1990).
[CrossRef]

Owechko, Y.

Petrov, M. P.

M. P. Petrov, H. J. Caulfield, E. V. Mokrushina, Kvantovaya Elektron. 19, 289 (1992).

M. P. Petrov, S. L. Sochava, S. I. Stepanov, Opt. Lett. 14, 284 (1989).
[CrossRef] [PubMed]

S. I. Stepanov, M. P. Petrov, Opt. Commun. 53, 292 (1985).
[CrossRef]

Prokofiev, V. V.

A. A. Kamshilin, R. Ravattinen, H. Tuovinen, T. Jaaskelainen, V. V. Prokofiev, Opt. Commun. 103, 221 (1993).
[CrossRef]

Ravattinen, R.

A. A. Kamshilin, R. Ravattinen, H. Tuovinen, T. Jaaskelainen, V. V. Prokofiev, Opt. Commun. 103, 221 (1993).
[CrossRef]

Segev, M.

M. Segev, Y. Ophir, B. Fischer, Opt. Commun. 77, 265 (1990).
[CrossRef]

Sochava, S. L.

Soffer, B. H.

Stepanov, S. I.

Sternklar, S.

Tuovinen, H.

A. A. Kamshilin, R. Ravattinen, H. Tuovinen, T. Jaaskelainen, V. V. Prokofiev, Opt. Commun. 103, 221 (1993).
[CrossRef]

Weiss, S.

Appl. Phys. (1)

A. Marrakchi, J. P. Huignard, P. Günter, Appl. Phys. 24, 131 (1981).
[CrossRef]

Appl. Phys. Lett. (1)

M. Cronin-Golomb, Appl. Phys. Lett. 54, 2189 (1989).
[CrossRef]

Kvantovaya Elektron. (1)

M. P. Petrov, H. J. Caulfield, E. V. Mokrushina, Kvantovaya Elektron. 19, 289 (1992).

Opt. Commun. (3)

A. A. Kamshilin, R. Ravattinen, H. Tuovinen, T. Jaaskelainen, V. V. Prokofiev, Opt. Commun. 103, 221 (1993).
[CrossRef]

M. Segev, Y. Ophir, B. Fischer, Opt. Commun. 77, 265 (1990).
[CrossRef]

S. I. Stepanov, M. P. Petrov, Opt. Commun. 53, 292 (1985).
[CrossRef]

Opt. Lett. (4)

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Figures (4)

Fig. 1
Fig. 1

Angular dependence of the two-wave-mixing enhancement coefficient in a Bi12TiO20 fiberlike sample for pump beam propagation exactly along the fiber axis [curve (a)] and for an incidence angle of 5° [curve (b)].

Fig. 2
Fig. 2

Experimental setup for the holographic recording in a Bi12TiO20 fiberlike sample in the double phase-conjugation geometry.

Fig. 3
Fig. 3

Phase-conjugate output images of one of the training image pairs: (a) a star, (b) a sectioned square.

Fig. 4
Fig. 4

Demonstration of associative memory: (a), (c) the input reading images; (b), (d) the corresponding out puts of the image A.

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