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  1. R. L. Powell, K. A. Stetson, J. Opt. Soc. Amer. 55, 1593 (1965).
    [CrossRef]
  2. L. O. Heflinger, R. F. Wuerker, R. E. Brooks, J. Appl. Phys. 37, 642 (1966).
    [CrossRef]
  3. J. M. Burch, Prod. Eng. 44, 431 (1965).
    [CrossRef]
  4. M. De, L. Sevigny, Appl. Opt. 6, 1665 (1967).
    [CrossRef] [PubMed]
  5. E. N. Leith, J. Upatnieks, J. Opt. Soc. Amer. 54, 1295 (1964).
    [CrossRef]
  6. O. Bryngdahl, J. Opt. Soc. Amer. 58, 865 (1968).
    [CrossRef]

1968 (1)

O. Bryngdahl, J. Opt. Soc. Amer. 58, 865 (1968).
[CrossRef]

1967 (1)

1966 (1)

L. O. Heflinger, R. F. Wuerker, R. E. Brooks, J. Appl. Phys. 37, 642 (1966).
[CrossRef]

1965 (2)

J. M. Burch, Prod. Eng. 44, 431 (1965).
[CrossRef]

R. L. Powell, K. A. Stetson, J. Opt. Soc. Amer. 55, 1593 (1965).
[CrossRef]

1964 (1)

E. N. Leith, J. Upatnieks, J. Opt. Soc. Amer. 54, 1295 (1964).
[CrossRef]

Brooks, R. E.

L. O. Heflinger, R. F. Wuerker, R. E. Brooks, J. Appl. Phys. 37, 642 (1966).
[CrossRef]

Bryngdahl, O.

O. Bryngdahl, J. Opt. Soc. Amer. 58, 865 (1968).
[CrossRef]

Burch, J. M.

J. M. Burch, Prod. Eng. 44, 431 (1965).
[CrossRef]

De, M.

Heflinger, L. O.

L. O. Heflinger, R. F. Wuerker, R. E. Brooks, J. Appl. Phys. 37, 642 (1966).
[CrossRef]

Leith, E. N.

E. N. Leith, J. Upatnieks, J. Opt. Soc. Amer. 54, 1295 (1964).
[CrossRef]

Powell, R. L.

R. L. Powell, K. A. Stetson, J. Opt. Soc. Amer. 55, 1593 (1965).
[CrossRef]

Sevigny, L.

Stetson, K. A.

R. L. Powell, K. A. Stetson, J. Opt. Soc. Amer. 55, 1593 (1965).
[CrossRef]

Upatnieks, J.

E. N. Leith, J. Upatnieks, J. Opt. Soc. Amer. 54, 1295 (1964).
[CrossRef]

Wuerker, R. F.

L. O. Heflinger, R. F. Wuerker, R. E. Brooks, J. Appl. Phys. 37, 642 (1966).
[CrossRef]

Appl. Opt. (1)

J. Appl. Phys. (1)

L. O. Heflinger, R. F. Wuerker, R. E. Brooks, J. Appl. Phys. 37, 642 (1966).
[CrossRef]

J. Opt. Soc. Amer. (3)

E. N. Leith, J. Upatnieks, J. Opt. Soc. Amer. 54, 1295 (1964).
[CrossRef]

O. Bryngdahl, J. Opt. Soc. Amer. 58, 865 (1968).
[CrossRef]

R. L. Powell, K. A. Stetson, J. Opt. Soc. Amer. 55, 1593 (1965).
[CrossRef]

Prod. Eng. (1)

J. M. Burch, Prod. Eng. 44, 431 (1965).
[CrossRef]

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Figures (2)

Figure 1
Figure 1

Optical arrangement for a holographic recording of two interferograms of a phase object.

Figure 2
Figure 2

Reconstructed interferograms obtained from a hologram (Kodak 649F plate). The zeroth order appears at left; the center interferogram shows the phase variation over the object; and a shearing interferogram showing the phase gradient of the object is at the right.

Equations (8)

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u ( x , y ) + exp ( i k x sin θ 1 ) + exp ( i k x sin θ 2 ) 2 + u ( x , y + Δ y ) + exp ( i k x sin θ 2 ) 2 ,
[ u * ( x , y ) + 1 ] exp ( i k x sin θ 1 )
[ u * ( x , y ) + u * ( x , y + Δ y ) ] exp ( i k 2 x sin θ 1 )
I 1 = o * ( x , y ) + 1 2 and I 2 = o * ( x , y ) + o * ( x , y + Δ y ) 2 ,
I 1 = e - i ϕ ( x , y ) + 1 2 = 4 cos 2 [ ϕ ( x , y ) / 2 ]
I 2 = e - i ϕ ( x , y ) + e - i ϕ ( x , y + Δ y ) 2 = 4 cos 2 { [ ϕ ( x , y + Δ y ) - ϕ ( x , y ) ] / 2 }
ϕ ( x , y ) = ( 2 p + 1 ) π
ϕ ( x , y + Δ y ) - ϕ ( x , y ) = ( 2 p + 1 ) π ,

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