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  1. R. J. Collier et al., Optical Holography (Academic, New York, 1971), p. 418.
  2. A. A. Friesem, C. M. Vest, Appl. Opt. 8, 1253 (1969).
    [CrossRef] [PubMed]
  3. R. M. Grant, G. M. Brown, Mater. Eval. 27, 79 (1969).
  4. D. J. V. Martin, J. Strain Anal. 10, 143 (1975).
    [CrossRef]
  5. M. M. Michael, Appl. Opt. 12, 1111 (1973).
    [CrossRef] [PubMed]
  6. D. R. Wells, Mater. Eval. 27, 225 (1969).
  7. E. Champagne, L. A. Kersh, J. Opt. Soc. Am. 59, A1535 (1969).
  8. E. Champagne, in SPIE Proceedings, Engineering Uses of Holography (Soc. Photo-Opt. Instrum. Eng., 1972).
  9. L. A. Kersch, Mater. Eval. 29, 125 (1971).
  10. L. A. Kersch, in Holographic Nondestructive Testing, R. K. Erf, Ed. (Academic, New York, 1974), p. 303.
    [CrossRef]
  11. J. P. Waters, in Ref. 10, p. 5.
  12. N. Abramson, Appl. Opt. 13, 2019 (1974).
    [CrossRef] [PubMed]
  13. N. Abramson, Appl. Opt. 14, 981 (1975).
    [CrossRef] [PubMed]
  14. P. M. Boone, Opt. Technol. 2, 94 (1970).
    [CrossRef]
  15. A. E. Ennos, in Ref. 10, p. 275.
  16. J. N. Butters, in Engineering Uses of Holography (Cambridge U. P., London, 1970), p. 151.
  17. Y. Y. Hung, C. E. Taylor, Trans. ASME 3, 1 (1975).

1975

Y. Y. Hung, C. E. Taylor, Trans. ASME 3, 1 (1975).

N. Abramson, Appl. Opt. 14, 981 (1975).
[CrossRef] [PubMed]

D. J. V. Martin, J. Strain Anal. 10, 143 (1975).
[CrossRef]

1974

1973

1971

L. A. Kersch, Mater. Eval. 29, 125 (1971).

1970

P. M. Boone, Opt. Technol. 2, 94 (1970).
[CrossRef]

1969

R. M. Grant, G. M. Brown, Mater. Eval. 27, 79 (1969).

D. R. Wells, Mater. Eval. 27, 225 (1969).

E. Champagne, L. A. Kersh, J. Opt. Soc. Am. 59, A1535 (1969).

A. A. Friesem, C. M. Vest, Appl. Opt. 8, 1253 (1969).
[CrossRef] [PubMed]

Abramson, N.

Boone, P. M.

P. M. Boone, Opt. Technol. 2, 94 (1970).
[CrossRef]

Brown, G. M.

R. M. Grant, G. M. Brown, Mater. Eval. 27, 79 (1969).

Butters, J. N.

J. N. Butters, in Engineering Uses of Holography (Cambridge U. P., London, 1970), p. 151.

Champagne, E.

E. Champagne, L. A. Kersh, J. Opt. Soc. Am. 59, A1535 (1969).

E. Champagne, in SPIE Proceedings, Engineering Uses of Holography (Soc. Photo-Opt. Instrum. Eng., 1972).

Collier, R. J.

R. J. Collier et al., Optical Holography (Academic, New York, 1971), p. 418.

Ennos, A. E.

A. E. Ennos, in Ref. 10, p. 275.

Friesem, A. A.

Grant, R. M.

R. M. Grant, G. M. Brown, Mater. Eval. 27, 79 (1969).

Hung, Y. Y.

Y. Y. Hung, C. E. Taylor, Trans. ASME 3, 1 (1975).

Kersch, L. A.

L. A. Kersch, Mater. Eval. 29, 125 (1971).

L. A. Kersch, in Holographic Nondestructive Testing, R. K. Erf, Ed. (Academic, New York, 1974), p. 303.
[CrossRef]

Kersh, L. A.

E. Champagne, L. A. Kersh, J. Opt. Soc. Am. 59, A1535 (1969).

Martin, D. J. V.

D. J. V. Martin, J. Strain Anal. 10, 143 (1975).
[CrossRef]

Michael, M. M.

Taylor, C. E.

Y. Y. Hung, C. E. Taylor, Trans. ASME 3, 1 (1975).

Vest, C. M.

Waters, J. P.

J. P. Waters, in Ref. 10, p. 5.

Wells, D. R.

D. R. Wells, Mater. Eval. 27, 225 (1969).

Appl. Opt.

J. Opt. Soc. Am.

E. Champagne, L. A. Kersh, J. Opt. Soc. Am. 59, A1535 (1969).

J. Strain Anal.

D. J. V. Martin, J. Strain Anal. 10, 143 (1975).
[CrossRef]

Mater. Eval.

D. R. Wells, Mater. Eval. 27, 225 (1969).

R. M. Grant, G. M. Brown, Mater. Eval. 27, 79 (1969).

L. A. Kersch, Mater. Eval. 29, 125 (1971).

Opt. Technol.

P. M. Boone, Opt. Technol. 2, 94 (1970).
[CrossRef]

Trans. ASME

Y. Y. Hung, C. E. Taylor, Trans. ASME 3, 1 (1975).

Other

A. E. Ennos, in Ref. 10, p. 275.

J. N. Butters, in Engineering Uses of Holography (Cambridge U. P., London, 1970), p. 151.

L. A. Kersch, in Holographic Nondestructive Testing, R. K. Erf, Ed. (Academic, New York, 1974), p. 303.
[CrossRef]

J. P. Waters, in Ref. 10, p. 5.

E. Champagne, in SPIE Proceedings, Engineering Uses of Holography (Soc. Photo-Opt. Instrum. Eng., 1972).

R. J. Collier et al., Optical Holography (Academic, New York, 1971), p. 418.

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Figures (4)

Fig. 1
Fig. 1

Schematic diagram of two-beam object illumination set up for HNDT.

Fig. 2
Fig. 2

Reconstructed image of a laminated structure without using fringe control techniques.

Fig. 3
Fig. 3

Reconstructed image of a laminated structure after using fringe control techniques.

Fig. 4
Fig. 4

Reconstructed image of the object when compensation is achieved by two-beam illumination.

Equations (6)

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t ˆ α ( O 1 + O 2 + O 1 + O 2 ) R * .
I α 4 O 0 2 R 4 [ 1 + cos α cos β + cos ( φ + β ) ( cos α + cos β ) ] ,
α = k ( Δ 1 + Δ 2 ) / 2 , β = k ( Δ 1 Δ 2 ) / 2 , φ = δ 2 δ 1 , O 1 = O 0 exp ( i δ 1 ) , O 2 = O 0 exp ( i δ 2 ) .
Δ 1 = u 1 sin θ u 3 ( 1 + cos θ ) + u 1 2 + u 2 2 + u 3 2 2 D x 1 u 1 + y 1 u 2 D ,
Δ 2 = u 1 sin θ u 3 ( 1 + cos θ ) + u 1 2 + u 2 2 + u 3 2 2 D x 1 u 1 + y 1 u 2 D ,
β = 2 u 1 sin θ .

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