Abstract

Experimental results from a fine-resolution three-dimensional (3-D) imaging method are presented. An object is flood illuminated with coherent light from a frequency-tunable laser. Electronic holograms are then recorded for a series of laser frequencies. These recordings are digitally assembled into a 3-D data array that is Fourier transformed to yield a 3-D image. 3-D imaging with 4.2-μm range resolution using a broadly tunable dye laser is demonstrated.

© 1993 Optical Society of America

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References

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  1. J. W. Walker, IEEE Trans. Aerosp. Electron. Syst. AES-16, 23 (1980).
    [Crossref]
  2. D. A. Ausherman, A. Kozma, J. L. Walker, H. M. Jones, E. C. Poggio, IEEE Trans. Aerosp. Electron. Syst. AES-20, 363 (1984).
    [Crossref]
  3. B. P. Hildebrand, K. A. Haines, J. Opt. Soc. Am. 57, 155 (1967).
    [Crossref]
  4. N. H. Farhat, in Optics in Four Dimensions-1980, M. A. Machado, L. M. Narducci, eds. (American Institute of Physics, New York, 1981), pp. 627–642.
  5. J. C. Marron, K. S. Schroeder, Appl. Opt. 31, 255 (1992).
    [Crossref] [PubMed]
  6. J. C. Marron, T. J. Schulz, Opt. Lett. 17, 285 (1992).
    [Crossref] [PubMed]
  7. Yu. T. Mazurenko, Opt. Spectrosc. 66, 227 (1989).
  8. I. I. Bogolepov, Yu. T. Mazurenko, V. S. Udaltsov, Opt. Spectrosc. 71, 81 (1991).
  9. J. C. Marron, Opt. Commun. 88, 305 (1992).
    [Crossref]
  10. Yu. T. Mazurenko, Opt. Spectrosc. 68, 464 (1990).
  11. P. de Groot, Opt. Lett. 17, 898 (1992).
    [Crossref] [PubMed]

1992 (4)

1991 (1)

I. I. Bogolepov, Yu. T. Mazurenko, V. S. Udaltsov, Opt. Spectrosc. 71, 81 (1991).

1990 (1)

Yu. T. Mazurenko, Opt. Spectrosc. 68, 464 (1990).

1989 (1)

Yu. T. Mazurenko, Opt. Spectrosc. 66, 227 (1989).

1984 (1)

D. A. Ausherman, A. Kozma, J. L. Walker, H. M. Jones, E. C. Poggio, IEEE Trans. Aerosp. Electron. Syst. AES-20, 363 (1984).
[Crossref]

1980 (1)

J. W. Walker, IEEE Trans. Aerosp. Electron. Syst. AES-16, 23 (1980).
[Crossref]

1967 (1)

Ausherman, D. A.

D. A. Ausherman, A. Kozma, J. L. Walker, H. M. Jones, E. C. Poggio, IEEE Trans. Aerosp. Electron. Syst. AES-20, 363 (1984).
[Crossref]

Bogolepov, I. I.

I. I. Bogolepov, Yu. T. Mazurenko, V. S. Udaltsov, Opt. Spectrosc. 71, 81 (1991).

de Groot, P.

Farhat, N. H.

N. H. Farhat, in Optics in Four Dimensions-1980, M. A. Machado, L. M. Narducci, eds. (American Institute of Physics, New York, 1981), pp. 627–642.

Haines, K. A.

Hildebrand, B. P.

Jones, H. M.

D. A. Ausherman, A. Kozma, J. L. Walker, H. M. Jones, E. C. Poggio, IEEE Trans. Aerosp. Electron. Syst. AES-20, 363 (1984).
[Crossref]

Kozma, A.

D. A. Ausherman, A. Kozma, J. L. Walker, H. M. Jones, E. C. Poggio, IEEE Trans. Aerosp. Electron. Syst. AES-20, 363 (1984).
[Crossref]

Marron, J. C.

Mazurenko, Yu. T.

I. I. Bogolepov, Yu. T. Mazurenko, V. S. Udaltsov, Opt. Spectrosc. 71, 81 (1991).

Yu. T. Mazurenko, Opt. Spectrosc. 68, 464 (1990).

Yu. T. Mazurenko, Opt. Spectrosc. 66, 227 (1989).

Poggio, E. C.

D. A. Ausherman, A. Kozma, J. L. Walker, H. M. Jones, E. C. Poggio, IEEE Trans. Aerosp. Electron. Syst. AES-20, 363 (1984).
[Crossref]

Schroeder, K. S.

Schulz, T. J.

Udaltsov, V. S.

I. I. Bogolepov, Yu. T. Mazurenko, V. S. Udaltsov, Opt. Spectrosc. 71, 81 (1991).

Walker, J. L.

D. A. Ausherman, A. Kozma, J. L. Walker, H. M. Jones, E. C. Poggio, IEEE Trans. Aerosp. Electron. Syst. AES-20, 363 (1984).
[Crossref]

Walker, J. W.

J. W. Walker, IEEE Trans. Aerosp. Electron. Syst. AES-16, 23 (1980).
[Crossref]

Appl. Opt. (1)

IEEE Trans. Aerosp. Electron. Syst. (2)

J. W. Walker, IEEE Trans. Aerosp. Electron. Syst. AES-16, 23 (1980).
[Crossref]

D. A. Ausherman, A. Kozma, J. L. Walker, H. M. Jones, E. C. Poggio, IEEE Trans. Aerosp. Electron. Syst. AES-20, 363 (1984).
[Crossref]

J. Opt. Soc. Am. (1)

Opt. Commun. (1)

J. C. Marron, Opt. Commun. 88, 305 (1992).
[Crossref]

Opt. Lett. (2)

Opt. Spectrosc. (3)

Yu. T. Mazurenko, Opt. Spectrosc. 66, 227 (1989).

I. I. Bogolepov, Yu. T. Mazurenko, V. S. Udaltsov, Opt. Spectrosc. 71, 81 (1991).

Yu. T. Mazurenko, Opt. Spectrosc. 68, 464 (1990).

Other (1)

N. H. Farhat, in Optics in Four Dimensions-1980, M. A. Machado, L. M. Narducci, eds. (American Institute of Physics, New York, 1981), pp. 627–642.

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Figures (3)

Fig. 1
Fig. 1

Relationship between the collected and recovered images.

Fig. 2
Fig. 2

Experimental setup.

Fig. 3
Fig. 3

Three-dimensional image of President Lincoln taken from a penny by using the HLR method. The range is encoded as gray scale according to the lower portion of the figure.

Equations (1)

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U ( ρ ) = κ σ ( r ) exp ( i 2 π ρ r ) d 3 r ,

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