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References

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  1. J. A. Leendertz, J. N. Butters, J. Phys. E 6, 1007 (1973).
    [CrossRef]
  2. D. E. Duffy, Appl. Opt. 11, 1778 (1972).
    [CrossRef] [PubMed]
  3. Y. Y. Hung, R. E. Rowlands, I. M. Daniel, Appl. Opt. 14, 618 (1975).
    [CrossRef] [PubMed]
  4. Y. Y. Hung, C. E. Taylor, Exp. Mech. 14, 281 (1974).
    [CrossRef]
  5. Y. Y. Hung, C. Y. Liang, Appl. Opt. 18, 1046 (1979).
    [CrossRef] [PubMed]
  6. F. P. Chiang, SUNY Stony Brook; private communication.
  7. E. Archbold, A. E. Ennos, M. S. Virdee, Proc. Soc. Photo-Opt. Instrum. Eng. 136, 258 (1977).

1979 (1)

1977 (1)

E. Archbold, A. E. Ennos, M. S. Virdee, Proc. Soc. Photo-Opt. Instrum. Eng. 136, 258 (1977).

1975 (1)

1974 (1)

Y. Y. Hung, C. E. Taylor, Exp. Mech. 14, 281 (1974).
[CrossRef]

1973 (1)

J. A. Leendertz, J. N. Butters, J. Phys. E 6, 1007 (1973).
[CrossRef]

1972 (1)

Archbold, E.

E. Archbold, A. E. Ennos, M. S. Virdee, Proc. Soc. Photo-Opt. Instrum. Eng. 136, 258 (1977).

Butters, J. N.

J. A. Leendertz, J. N. Butters, J. Phys. E 6, 1007 (1973).
[CrossRef]

Chiang, F. P.

F. P. Chiang, SUNY Stony Brook; private communication.

Daniel, I. M.

Duffy, D. E.

Ennos, A. E.

E. Archbold, A. E. Ennos, M. S. Virdee, Proc. Soc. Photo-Opt. Instrum. Eng. 136, 258 (1977).

Hung, Y. Y.

Leendertz, J. A.

J. A. Leendertz, J. N. Butters, J. Phys. E 6, 1007 (1973).
[CrossRef]

Liang, C. Y.

Rowlands, R. E.

Taylor, C. E.

Y. Y. Hung, C. E. Taylor, Exp. Mech. 14, 281 (1974).
[CrossRef]

Virdee, M. S.

E. Archbold, A. E. Ennos, M. S. Virdee, Proc. Soc. Photo-Opt. Instrum. Eng. 136, 258 (1977).

Appl. Opt. (3)

Exp. Mech. (1)

Y. Y. Hung, C. E. Taylor, Exp. Mech. 14, 281 (1974).
[CrossRef]

J. Phys. E (1)

J. A. Leendertz, J. N. Butters, J. Phys. E 6, 1007 (1973).
[CrossRef]

Proc. Soc. Photo-Opt. Instrum. Eng. (1)

E. Archbold, A. E. Ennos, M. S. Virdee, Proc. Soc. Photo-Opt. Instrum. Eng. 136, 258 (1977).

Other (1)

F. P. Chiang, SUNY Stony Brook; private communication.

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Figures (2)

Fig. 1
Fig. 1

Schematic of split lens speckle shear interferometer indicating x and y shears.

Fig. 2
Fig. 2

Slope contours of a centrally loaded diaphragm: wmax = 15 μm; R = 30 mm; so = 2.79 mm.

Equations (6)

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δ = 4 π λ ( d w d x ) 1 + M M x L o ,
d w d x = m λ 2 ( M 1 + M ) 1 x L o ,
w x = 4 w max R · x R · log e ( x R ) ,
w x w max = e · x n · log e ( x n ) ,
x n = exp ( - 1 )
x n log e ( x n ) = 1 8 ( R s o · λ w max ) m .

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