Abstract

This paper shows that Feigenbaum's scenario of transition to chaos can be implemented in a Fourier-holography layout with wave-front reversal in the correlation plane. Based on this, it is proposed to use the Fourier-holography layout with wave-front reversal as an approach to the task of implementing creative thought. The requirements on the transfer functions of reversible recording media are determined for implementing self-adjustment of the system to the type of dynamics needed to solve the encountered problem. The results of numerical modeling of the dynamics of the system are presented.

© 2008 Optical Society of America

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  2. O. P. Kuznetsov and L. B. Shipilina, “Pseudooptical neural networks--a complete rectilinear model and methods of calculating its behavior,” Izv. Akad. Nauk Ser. Teor. Sis. Uprav. No. 5, 168 (2000).
  3. O. P. Kuznetsov, “Modelling optical phenomena in neural networks,” Opt. Zh. 70, No. 8, 25 (2003) O. P. Kuznetsov,[J. Opt. Technol. 70, 548 (2003)].
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  5. K. Pribram, The Languages of the Brain (Progress, Moscow, 1975).
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  7. K. Pribram, “Nonlocality and localization: A holographic hypothesis concerning the functioning of the brain during perception and memory,” Sinerg. Psikhologiya. Metodol. Voprosy No. 1, 136 (1997).
  8. N. H. Farhat, D. Psaltis, A. Prata, and E. Paek, “Optical implementation of the Hopfield method,” Appl. Opt. 24, 1469 (1985).
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    [CrossRef]
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  16. E. N. Knyazeva, “Methods of nonlinear dynamics in cognitive science,” in Synergetics and Psychology (2004), vol. 3 of Cognitive Processes, pp. 29-48.
  17. A. Kombs, “Consciousness: Chaotic and strange-attractor,” in Synergetics and Psychology (2004), vol. 3 of Cognitive Processes, pp. 49-60.
  18. R. Moller and Kh.-M. Gross, “Perception via anticipation,” in Synergetics and Psychology (2004), vol. 3 of Cognitive Processes.
  19. A. M. Alekseev, A. M. Konstantinov, and A. V. Pavlov, “Using Fourier holography to model the principle of imagery of thought,” Opt. Zh. 73, No. 9, 77 (2006) A. M. Alekseev, A. M. Konstantinov, and A. V. Pavlov,[J. Opt. Technol. 73, 640 (2006)].
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  26. G. R. Grimmet and D. R. Sterzaker, Probability and Random Processes (Clarendon Press, Oxford, 1992).
  27. R. M. Kronover, Fractals and Chaos in Dynamic Systems (Postmarket, Moscow, 2000).
  28. L. P. Amosova, N. I. Pletneva, and A. N. Chaĭka, “Nonlinear regime of the reversible recording of holograms on photoconductor-liquid-crystal structures with high sensitivity to He-Ne laser radiation,” Opt. Zh. 72, No. 6, 57 (2005) L. P. Amosova, N. I. Pletneva, A. N. Chaĭka[J. Opt. Technol. 72, No. 6, 469 (2005)].
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2006

A. M. Alekseev, A. M. Konstantinov, and A. V. Pavlov, “Using Fourier holography to model the principle of imagery of thought,” Opt. Zh. 73, No. 9, 77 (2006) A. M. Alekseev, A. M. Konstantinov, and A. V. Pavlov,[J. Opt. Technol. 73, 640 (2006)].

A. M. Alekseev, A. M. Konstantinov, and A. V. Pavlov, “Using Fourier holography to model the principle of imagery of thought,” Opt. Zh. 73, No. 9, 77 (2006) A. M. Alekseev, A. M. Konstantinov, and A. V. Pavlov,[J. Opt. Technol. 73, 640 (2006)].

2005

A. V. Pavlov, “Implementing a linear predictor model by Fourier holography,” Opt. Zh. 72, No. 2, 43 (2005) A. V. Pavlov,[J. Opt. Technol. 72, 199 (2005)].

A. V. Pavlov, “Implementing a linear predictor model by Fourier holography,” Opt. Zh. 72, No. 2, 43 (2005) A. V. Pavlov,[J. Opt. Technol. 72, 199 (2005)].

L. P. Amosova, N. I. Pletneva, and A. N. Chaĭka, “Nonlinear regime of the reversible recording of holograms on photoconductor-liquid-crystal structures with high sensitivity to He-Ne laser radiation,” Opt. Zh. 72, No. 6, 57 (2005) L. P. Amosova, N. I. Pletneva, A. N. Chaĭka[J. Opt. Technol. 72, No. 6, 469 (2005)].

L. P. Amosova, N. I. Pletneva, and A. N. Chaĭka, “Nonlinear regime of the reversible recording of holograms on photoconductor-liquid-crystal structures with high sensitivity to He-Ne laser radiation,” Opt. Zh. 72, No. 6, 57 (2005) L. P. Amosova, N. I. Pletneva, A. N. Chaĭka[J. Opt. Technol. 72, No. 6, 469 (2005)].

2003

O. P. Kuznetsov, “Modelling optical phenomena in neural networks,” Opt. Zh. 70, No. 8, 25 (2003) O. P. Kuznetsov,[J. Opt. Technol. 70, 548 (2003)].

O. P. Kuznetsov, “Modelling optical phenomena in neural networks,” Opt. Zh. 70, No. 8, 25 (2003) O. P. Kuznetsov,[J. Opt. Technol. 70, 548 (2003)].

1997

K. V. Sudakov, “Holographic principle of a system for organizing processes of vital activity,” Usp. Fiziolog. Nauk 28, No. 4, 3 (1997).

1992

N. V. Bogodaev, V. V. Eliseev, Z. A. Zozulya, L. I. Ivleva, A. S. Korshunov, S. S. Orlov, and N. M. Polozkov, “Double phase-conjugation mirror: Experimental investigation and comparison with theory,” Kvantovaya Elektron. (Moscow) 19, 648 (1992) N. V. Bogodaev, V. V. Eliseev, Z. A. Zozulya, L. I. Ivleva, A. S. Korshunov, S. S. Orlov, and N. M. Polozkov,[Sov. J. Quantum Electron. 22, 598 (1992)].

N. V. Bogodaev, V. V. Eliseev, Z. A. Zozulya, L. I. Ivleva, A. S. Korshunov, S. S. Orlov, and N. M. Polozkov, “Double phase-conjugation mirror: Experimental investigation and comparison with theory,” Kvantovaya Elektron. (Moscow) 19, 648 (1992) N. V. Bogodaev, V. V. Eliseev, Z. A. Zozulya, L. I. Ivleva, A. S. Korshunov, S. S. Orlov, and N. M. Polozkov,[Sov. J. Quantum Electron. 22, 598 (1992)].

1989

Y. Owechko, “Nonlinear holographic associative memories,” IEEE J. Quantum Electron. 25, 619 (1989).
[CrossRef]

1987

1985

Alekseev, A. M.

A. M. Alekseev, A. M. Konstantinov, and A. V. Pavlov, “Using Fourier holography to model the principle of imagery of thought,” Opt. Zh. 73, No. 9, 77 (2006) A. M. Alekseev, A. M. Konstantinov, and A. V. Pavlov,[J. Opt. Technol. 73, 640 (2006)].

A. M. Alekseev, A. M. Konstantinov, and A. V. Pavlov, “Using Fourier holography to model the principle of imagery of thought,” Opt. Zh. 73, No. 9, 77 (2006) A. M. Alekseev, A. M. Konstantinov, and A. V. Pavlov,[J. Opt. Technol. 73, 640 (2006)].

Amosova, L. P.

L. P. Amosova, N. I. Pletneva, and A. N. Chaĭka, “Nonlinear regime of the reversible recording of holograms on photoconductor-liquid-crystal structures with high sensitivity to He-Ne laser radiation,” Opt. Zh. 72, No. 6, 57 (2005) L. P. Amosova, N. I. Pletneva, A. N. Chaĭka[J. Opt. Technol. 72, No. 6, 469 (2005)].

L. P. Amosova, N. I. Pletneva, and A. N. Chaĭka, “Nonlinear regime of the reversible recording of holograms on photoconductor-liquid-crystal structures with high sensitivity to He-Ne laser radiation,” Opt. Zh. 72, No. 6, 57 (2005) L. P. Amosova, N. I. Pletneva, A. N. Chaĭka[J. Opt. Technol. 72, No. 6, 469 (2005)].

Arbib, M.

M. Arbib, The Metaphorical Brain (Mir, Moscow, 1976).

Bogodaev, N. V.

N. V. Bogodaev, V. V. Eliseev, Z. A. Zozulya, L. I. Ivleva, A. S. Korshunov, S. S. Orlov, and N. M. Polozkov, “Double phase-conjugation mirror: Experimental investigation and comparison with theory,” Kvantovaya Elektron. (Moscow) 19, 648 (1992) N. V. Bogodaev, V. V. Eliseev, Z. A. Zozulya, L. I. Ivleva, A. S. Korshunov, S. S. Orlov, and N. M. Polozkov,[Sov. J. Quantum Electron. 22, 598 (1992)].

N. V. Bogodaev, V. V. Eliseev, Z. A. Zozulya, L. I. Ivleva, A. S. Korshunov, S. S. Orlov, and N. M. Polozkov, “Double phase-conjugation mirror: Experimental investigation and comparison with theory,” Kvantovaya Elektron. (Moscow) 19, 648 (1992) N. V. Bogodaev, V. V. Eliseev, Z. A. Zozulya, L. I. Ivleva, A. S. Korshunov, S. S. Orlov, and N. M. Polozkov,[Sov. J. Quantum Electron. 22, 598 (1992)].

Chaika, A. N.

L. P. Amosova, N. I. Pletneva, and A. N. Chaĭka, “Nonlinear regime of the reversible recording of holograms on photoconductor-liquid-crystal structures with high sensitivity to He-Ne laser radiation,” Opt. Zh. 72, No. 6, 57 (2005) L. P. Amosova, N. I. Pletneva, A. N. Chaĭka[J. Opt. Technol. 72, No. 6, 469 (2005)].

L. P. Amosova, N. I. Pletneva, and A. N. Chaĭka, “Nonlinear regime of the reversible recording of holograms on photoconductor-liquid-crystal structures with high sensitivity to He-Ne laser radiation,” Opt. Zh. 72, No. 6, 57 (2005) L. P. Amosova, N. I. Pletneva, A. N. Chaĭka[J. Opt. Technol. 72, No. 6, 469 (2005)].

Eliseev, V. V.

N. V. Bogodaev, V. V. Eliseev, Z. A. Zozulya, L. I. Ivleva, A. S. Korshunov, S. S. Orlov, and N. M. Polozkov, “Double phase-conjugation mirror: Experimental investigation and comparison with theory,” Kvantovaya Elektron. (Moscow) 19, 648 (1992) N. V. Bogodaev, V. V. Eliseev, Z. A. Zozulya, L. I. Ivleva, A. S. Korshunov, S. S. Orlov, and N. M. Polozkov,[Sov. J. Quantum Electron. 22, 598 (1992)].

N. V. Bogodaev, V. V. Eliseev, Z. A. Zozulya, L. I. Ivleva, A. S. Korshunov, S. S. Orlov, and N. M. Polozkov, “Double phase-conjugation mirror: Experimental investigation and comparison with theory,” Kvantovaya Elektron. (Moscow) 19, 648 (1992) N. V. Bogodaev, V. V. Eliseev, Z. A. Zozulya, L. I. Ivleva, A. S. Korshunov, S. S. Orlov, and N. M. Polozkov,[Sov. J. Quantum Electron. 22, 598 (1992)].

Farhat, N. H.

Fominykh, I. B.

I. B. Fominykh, “On a technology for solving creative problems,” in Transactions of the Eighth National Conference on Artificial Intelligence KII-2002 (Fizmatlit, Moscow, 2002), vol. 1.

G. A. Golitsyn and I. B. Fominykh, “Neural networks and expert systems: Prospects of integration,” Novosti Iskusst. Intell. No. 4, 121 (1996).

Freeman, U. J.

U. J. Freeman, “Dynamics of the brain in perception and cognition: The creative role of chaos,” in Synergetics and Psychology (2004), vol. 3 of Cognitive Processes, pp. 13-28.

Golitsyn, G. A.

G. A. Golitsyn and I. B. Fominykh, “Neural networks and expert systems: Prospects of integration,” Novosti Iskusst. Intell. No. 4, 121 (1996).

Grimmet, G. R.

G. R. Grimmet and D. R. Sterzaker, Probability and Random Processes (Clarendon Press, Oxford, 1992).

Gross, Kh.-M.

R. Moller and Kh.-M. Gross, “Perception via anticipation,” in Synergetics and Psychology (2004), vol. 3 of Cognitive Processes.

Ivleva, L. I.

N. V. Bogodaev, V. V. Eliseev, Z. A. Zozulya, L. I. Ivleva, A. S. Korshunov, S. S. Orlov, and N. M. Polozkov, “Double phase-conjugation mirror: Experimental investigation and comparison with theory,” Kvantovaya Elektron. (Moscow) 19, 648 (1992) N. V. Bogodaev, V. V. Eliseev, Z. A. Zozulya, L. I. Ivleva, A. S. Korshunov, S. S. Orlov, and N. M. Polozkov,[Sov. J. Quantum Electron. 22, 598 (1992)].

N. V. Bogodaev, V. V. Eliseev, Z. A. Zozulya, L. I. Ivleva, A. S. Korshunov, S. S. Orlov, and N. M. Polozkov, “Double phase-conjugation mirror: Experimental investigation and comparison with theory,” Kvantovaya Elektron. (Moscow) 19, 648 (1992) N. V. Bogodaev, V. V. Eliseev, Z. A. Zozulya, L. I. Ivleva, A. S. Korshunov, S. S. Orlov, and N. M. Polozkov,[Sov. J. Quantum Electron. 22, 598 (1992)].

Knyazeva, E. N.

E. N. Knyazeva, “Methods of nonlinear dynamics in cognitive science,” in Synergetics and Psychology (2004), vol. 3 of Cognitive Processes, pp. 29-48.

Kombs, A.

A. Kombs, “Consciousness: Chaotic and strange-attractor,” in Synergetics and Psychology (2004), vol. 3 of Cognitive Processes, pp. 49-60.

Konstantinov, A. M.

A. M. Alekseev, A. M. Konstantinov, and A. V. Pavlov, “Using Fourier holography to model the principle of imagery of thought,” Opt. Zh. 73, No. 9, 77 (2006) A. M. Alekseev, A. M. Konstantinov, and A. V. Pavlov,[J. Opt. Technol. 73, 640 (2006)].

A. M. Alekseev, A. M. Konstantinov, and A. V. Pavlov, “Using Fourier holography to model the principle of imagery of thought,” Opt. Zh. 73, No. 9, 77 (2006) A. M. Alekseev, A. M. Konstantinov, and A. V. Pavlov,[J. Opt. Technol. 73, 640 (2006)].

Korshunov, A. S.

N. V. Bogodaev, V. V. Eliseev, Z. A. Zozulya, L. I. Ivleva, A. S. Korshunov, S. S. Orlov, and N. M. Polozkov, “Double phase-conjugation mirror: Experimental investigation and comparison with theory,” Kvantovaya Elektron. (Moscow) 19, 648 (1992) N. V. Bogodaev, V. V. Eliseev, Z. A. Zozulya, L. I. Ivleva, A. S. Korshunov, S. S. Orlov, and N. M. Polozkov,[Sov. J. Quantum Electron. 22, 598 (1992)].

N. V. Bogodaev, V. V. Eliseev, Z. A. Zozulya, L. I. Ivleva, A. S. Korshunov, S. S. Orlov, and N. M. Polozkov, “Double phase-conjugation mirror: Experimental investigation and comparison with theory,” Kvantovaya Elektron. (Moscow) 19, 648 (1992) N. V. Bogodaev, V. V. Eliseev, Z. A. Zozulya, L. I. Ivleva, A. S. Korshunov, S. S. Orlov, and N. M. Polozkov,[Sov. J. Quantum Electron. 22, 598 (1992)].

Kosko, B.

Kronover, R. M.

R. M. Kronover, Fractals and Chaos in Dynamic Systems (Postmarket, Moscow, 2000).

Kuznetsov, O. P.

O. P. Kuznetsov, “Modelling optical phenomena in neural networks,” Opt. Zh. 70, No. 8, 25 (2003) O. P. Kuznetsov,[J. Opt. Technol. 70, 548 (2003)].

O. P. Kuznetsov, “Modelling optical phenomena in neural networks,” Opt. Zh. 70, No. 8, 25 (2003) O. P. Kuznetsov,[J. Opt. Technol. 70, 548 (2003)].

O. P. Kuznetsov, “Nonclassical paradigms in AI,” Izv. Akad. Nauk Ser. Teor. Sis. Uprav. No. 5, 3 (1995).

O. P. Kuznetsov and L. B. Shipilina, “Pseudooptical neural networks--a complete rectilinear model and methods of calculating its behavior,” Izv. Akad. Nauk Ser. Teor. Sis. Uprav. No. 5, 168 (2000).

Leutin, V. P.

V. P. Leutin and E. I. Nikolaeva, Functional Asymmetry of the Brain. Myths and Reality (Rech', St. Petersburg, 2005).

Moller, R.

R. Moller and Kh.-M. Gross, “Perception via anticipation,” in Synergetics and Psychology (2004), vol. 3 of Cognitive Processes.

Nikolaeva, E. I.

V. P. Leutin and E. I. Nikolaeva, Functional Asymmetry of the Brain. Myths and Reality (Rech', St. Petersburg, 2005).

Orlov, S. S.

N. V. Bogodaev, V. V. Eliseev, Z. A. Zozulya, L. I. Ivleva, A. S. Korshunov, S. S. Orlov, and N. M. Polozkov, “Double phase-conjugation mirror: Experimental investigation and comparison with theory,” Kvantovaya Elektron. (Moscow) 19, 648 (1992) N. V. Bogodaev, V. V. Eliseev, Z. A. Zozulya, L. I. Ivleva, A. S. Korshunov, S. S. Orlov, and N. M. Polozkov,[Sov. J. Quantum Electron. 22, 598 (1992)].

N. V. Bogodaev, V. V. Eliseev, Z. A. Zozulya, L. I. Ivleva, A. S. Korshunov, S. S. Orlov, and N. M. Polozkov, “Double phase-conjugation mirror: Experimental investigation and comparison with theory,” Kvantovaya Elektron. (Moscow) 19, 648 (1992) N. V. Bogodaev, V. V. Eliseev, Z. A. Zozulya, L. I. Ivleva, A. S. Korshunov, S. S. Orlov, and N. M. Polozkov,[Sov. J. Quantum Electron. 22, 598 (1992)].

Ovcharov, L. A.

E. S. Venttsel' and L. A. Ovcharov, Theory of Random Processes and Engineering Applications (Vysshaya Shkola, Moscow, 2000).

Owechko, Y.

Y. Owechko, “Nonlinear holographic associative memories,” IEEE J. Quantum Electron. 25, 619 (1989).
[CrossRef]

Paek, E.

Pavlov, A. V.

A. M. Alekseev, A. M. Konstantinov, and A. V. Pavlov, “Using Fourier holography to model the principle of imagery of thought,” Opt. Zh. 73, No. 9, 77 (2006) A. M. Alekseev, A. M. Konstantinov, and A. V. Pavlov,[J. Opt. Technol. 73, 640 (2006)].

A. M. Alekseev, A. M. Konstantinov, and A. V. Pavlov, “Using Fourier holography to model the principle of imagery of thought,” Opt. Zh. 73, No. 9, 77 (2006) A. M. Alekseev, A. M. Konstantinov, and A. V. Pavlov,[J. Opt. Technol. 73, 640 (2006)].

A. V. Pavlov, “Implementing a linear predictor model by Fourier holography,” Opt. Zh. 72, No. 2, 43 (2005) A. V. Pavlov,[J. Opt. Technol. 72, 199 (2005)].

A. V. Pavlov, “Implementing a linear predictor model by Fourier holography,” Opt. Zh. 72, No. 2, 43 (2005) A. V. Pavlov,[J. Opt. Technol. 72, 199 (2005)].

A. V. Pavlov, “Possibilities of associative information processing implemented by Fourier holography,” Novosti Iskusst. Intell. No. 2, 41 (2006).

A. V. Pavlov, “On the applicability of holographic technologies in the problem of modelling creative thought. Integrated models and soft computations in artificial intelligence,” in Transactions of the Fourth International Scientific--Practical Conference (Kolomna, 28-30 May 2007) (Fizmatlit, Moscow, 2007), pp. 282-290.

Pletneva, N. I.

L. P. Amosova, N. I. Pletneva, and A. N. Chaĭka, “Nonlinear regime of the reversible recording of holograms on photoconductor-liquid-crystal structures with high sensitivity to He-Ne laser radiation,” Opt. Zh. 72, No. 6, 57 (2005) L. P. Amosova, N. I. Pletneva, A. N. Chaĭka[J. Opt. Technol. 72, No. 6, 469 (2005)].

L. P. Amosova, N. I. Pletneva, and A. N. Chaĭka, “Nonlinear regime of the reversible recording of holograms on photoconductor-liquid-crystal structures with high sensitivity to He-Ne laser radiation,” Opt. Zh. 72, No. 6, 57 (2005) L. P. Amosova, N. I. Pletneva, A. N. Chaĭka[J. Opt. Technol. 72, No. 6, 469 (2005)].

Polozkov, N. M.

N. V. Bogodaev, V. V. Eliseev, Z. A. Zozulya, L. I. Ivleva, A. S. Korshunov, S. S. Orlov, and N. M. Polozkov, “Double phase-conjugation mirror: Experimental investigation and comparison with theory,” Kvantovaya Elektron. (Moscow) 19, 648 (1992) N. V. Bogodaev, V. V. Eliseev, Z. A. Zozulya, L. I. Ivleva, A. S. Korshunov, S. S. Orlov, and N. M. Polozkov,[Sov. J. Quantum Electron. 22, 598 (1992)].

N. V. Bogodaev, V. V. Eliseev, Z. A. Zozulya, L. I. Ivleva, A. S. Korshunov, S. S. Orlov, and N. M. Polozkov, “Double phase-conjugation mirror: Experimental investigation and comparison with theory,” Kvantovaya Elektron. (Moscow) 19, 648 (1992) N. V. Bogodaev, V. V. Eliseev, Z. A. Zozulya, L. I. Ivleva, A. S. Korshunov, S. S. Orlov, and N. M. Polozkov,[Sov. J. Quantum Electron. 22, 598 (1992)].

Prata, A.

Pribram, K.

K. Pribram, “Nonlocality and localization: A holographic hypothesis concerning the functioning of the brain during perception and memory,” Sinerg. Psikhologiya. Metodol. Voprosy No. 1, 136 (1997).

K. Pribram, The Languages of the Brain (Progress, Moscow, 1975).

Psaltis, D.

Shipilina, L. B.

O. P. Kuznetsov and L. B. Shipilina, “Pseudooptical neural networks--a complete rectilinear model and methods of calculating its behavior,” Izv. Akad. Nauk Ser. Teor. Sis. Uprav. No. 5, 168 (2000).

Sterzaker, D. R.

G. R. Grimmet and D. R. Sterzaker, Probability and Random Processes (Clarendon Press, Oxford, 1992).

Sudakov, K. V.

K. V. Sudakov, “Holographic principle of a system for organizing processes of vital activity,” Usp. Fiziolog. Nauk 28, No. 4, 3 (1997).

Venttsel', A. D.

A. D. Venttsel', Course of the Theory of Random Processes (Nauka, Moscow, 1975).

Venttsel', E. S.

E. S. Venttsel' and L. A. Ovcharov, Theory of Random Processes and Engineering Applications (Vysshaya Shkola, Moscow, 2000).

Zozulya, Z. A.

N. V. Bogodaev, V. V. Eliseev, Z. A. Zozulya, L. I. Ivleva, A. S. Korshunov, S. S. Orlov, and N. M. Polozkov, “Double phase-conjugation mirror: Experimental investigation and comparison with theory,” Kvantovaya Elektron. (Moscow) 19, 648 (1992) N. V. Bogodaev, V. V. Eliseev, Z. A. Zozulya, L. I. Ivleva, A. S. Korshunov, S. S. Orlov, and N. M. Polozkov,[Sov. J. Quantum Electron. 22, 598 (1992)].

N. V. Bogodaev, V. V. Eliseev, Z. A. Zozulya, L. I. Ivleva, A. S. Korshunov, S. S. Orlov, and N. M. Polozkov, “Double phase-conjugation mirror: Experimental investigation and comparison with theory,” Kvantovaya Elektron. (Moscow) 19, 648 (1992) N. V. Bogodaev, V. V. Eliseev, Z. A. Zozulya, L. I. Ivleva, A. S. Korshunov, S. S. Orlov, and N. M. Polozkov,[Sov. J. Quantum Electron. 22, 598 (1992)].

Appl. Opt.

IEEE J. Quantum Electron.

Y. Owechko, “Nonlinear holographic associative memories,” IEEE J. Quantum Electron. 25, 619 (1989).
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