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References

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  1. See, e.g., P. Hariharan, Opt. Acta 19, 791 (1972).
    [CrossRef]
  2. W. Martienssen, E. Spiller, Am. J. Phys. 32, 919 (1964).
    [CrossRef]
  3. L. E. Estes, L. M. Narducci, R. A. Tuft, J. Opt. Soc. Am. 61, 1301 (1971).
    [CrossRef]
  4. E. Jakeman, J. Phys. A8, L23 (1975).
  5. See, e.g., E. Jakeman, in Photon Correlation and Light Beating Spectroscopy, H. Z. Cummins, E. R. Pike, Eds. (Plenum, New York, 1973), p. 75.

1975 (1)

E. Jakeman, J. Phys. A8, L23 (1975).

1972 (1)

See, e.g., P. Hariharan, Opt. Acta 19, 791 (1972).
[CrossRef]

1971 (1)

1964 (1)

W. Martienssen, E. Spiller, Am. J. Phys. 32, 919 (1964).
[CrossRef]

Estes, L. E.

Hariharan, P.

See, e.g., P. Hariharan, Opt. Acta 19, 791 (1972).
[CrossRef]

Jakeman, E.

E. Jakeman, J. Phys. A8, L23 (1975).

See, e.g., E. Jakeman, in Photon Correlation and Light Beating Spectroscopy, H. Z. Cummins, E. R. Pike, Eds. (Plenum, New York, 1973), p. 75.

Martienssen, W.

W. Martienssen, E. Spiller, Am. J. Phys. 32, 919 (1964).
[CrossRef]

Narducci, L. M.

Spiller, E.

W. Martienssen, E. Spiller, Am. J. Phys. 32, 919 (1964).
[CrossRef]

Tuft, R. A.

Am. J. Phys. (1)

W. Martienssen, E. Spiller, Am. J. Phys. 32, 919 (1964).
[CrossRef]

J. Opt. Soc. Am. (1)

J. Phys. (1)

E. Jakeman, J. Phys. A8, L23 (1975).

Opt. Acta (1)

See, e.g., P. Hariharan, Opt. Acta 19, 791 (1972).
[CrossRef]

Other (1)

See, e.g., E. Jakeman, in Photon Correlation and Light Beating Spectroscopy, H. Z. Cummins, E. R. Pike, Eds. (Plenum, New York, 1973), p. 75.

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Figures (2)

Fig. 1
Fig. 1

The apparatus.

Fig. 2
Fig. 2

The intensity correlation function.

Equations (9)

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E s ( x , t ) ~ d 2 u E o ( u , t ) α ( u , t ) exp ( i π λ D | x u | 2 ) ,
G ( 1 ) ( τ ) = E s * ( x , t ) E s ( x , t + τ ) = d 2 u 1 d 2 u 2 E o * ( u 1 , t ) E o ( u 2 , t + τ ) α * ( u 1 , t ) α ( u 2 , t + τ ) × exp [ i π λ D ( | x u 2 | 2 ( | x u 1 | 2 ) ] .
g ( 2 ) ( τ ) = I ( t ) I ) t + τ ) / I 2 = 1 + C | G ( 1 ) ( τ ) | 2 ,
α * ( u 1 , t ) α ( u 2 , t + τ ) ~ δ [ u 1 ( τ ) u 2 ] ,
G ( 1 ) ( τ ) ~ d u I o ( u ) exp { i 2 π λ D x [ u ( τ ) u ] } ,
| G ( 1 ) ( τ ) | ~ 0 d u I o ( u ) J o [ 4 π λ D x sin ( Ω τ 2 ) u ] .
I o ( u ) ~ exp ( u 2 / R 2 ) ,
| G ( 1 ) ( τ ) | ~ exp [ β 2 sin 2 ( Ω τ 2 ) ] ,
β = 2 π R x λ D = 2 π R λ tan θ

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