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References

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  1. B. Moslehi, J. W. Goodman, E. G. Rawson, Appl Opt. 22, 995 (1983).
    [CrossRef] [PubMed]
  2. G. K. Grau, Optische Nachrichtentechnik (Springer, Berlin, 1981), pp. 227–235.
  3. P. Schmid, W. Stephan, submitted to J. Opt. Commun. (1983).
  4. W. Freude, G. K. Grau, AEÜ Arch. Elektron. Ubertrag. (Electron. Commun.) 36, 91 (1982).
  5. J. W. Goodman, “Statistical Properties of Laser Speckle Patterns,” in J. C. Dainty, Ed., Laser Speckle and Related Phenomena (Springer, New York, 1975).
    [CrossRef]

1983 (1)

B. Moslehi, J. W. Goodman, E. G. Rawson, Appl Opt. 22, 995 (1983).
[CrossRef] [PubMed]

1982 (1)

W. Freude, G. K. Grau, AEÜ Arch. Elektron. Ubertrag. (Electron. Commun.) 36, 91 (1982).

Freude, W.

W. Freude, G. K. Grau, AEÜ Arch. Elektron. Ubertrag. (Electron. Commun.) 36, 91 (1982).

Goodman, J. W.

B. Moslehi, J. W. Goodman, E. G. Rawson, Appl Opt. 22, 995 (1983).
[CrossRef] [PubMed]

J. W. Goodman, “Statistical Properties of Laser Speckle Patterns,” in J. C. Dainty, Ed., Laser Speckle and Related Phenomena (Springer, New York, 1975).
[CrossRef]

Grau, G. K.

W. Freude, G. K. Grau, AEÜ Arch. Elektron. Ubertrag. (Electron. Commun.) 36, 91 (1982).

G. K. Grau, Optische Nachrichtentechnik (Springer, Berlin, 1981), pp. 227–235.

Moslehi, B.

B. Moslehi, J. W. Goodman, E. G. Rawson, Appl Opt. 22, 995 (1983).
[CrossRef] [PubMed]

Rawson, E. G.

B. Moslehi, J. W. Goodman, E. G. Rawson, Appl Opt. 22, 995 (1983).
[CrossRef] [PubMed]

Schmid, P.

P. Schmid, W. Stephan, submitted to J. Opt. Commun. (1983).

Stephan, W.

P. Schmid, W. Stephan, submitted to J. Opt. Commun. (1983).

AEÜ Arch. Elektron. Ubertrag. (Electron. Commun.) (1)

W. Freude, G. K. Grau, AEÜ Arch. Elektron. Ubertrag. (Electron. Commun.) 36, 91 (1982).

Appl Opt. (1)

B. Moslehi, J. W. Goodman, E. G. Rawson, Appl Opt. 22, 995 (1983).
[CrossRef] [PubMed]

Other (3)

G. K. Grau, Optische Nachrichtentechnik (Springer, Berlin, 1981), pp. 227–235.

P. Schmid, W. Stephan, submitted to J. Opt. Commun. (1983).

J. W. Goodman, “Statistical Properties of Laser Speckle Patterns,” in J. C. Dainty, Ed., Laser Speckle and Related Phenomena (Springer, New York, 1975).
[CrossRef]

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Figures (2)

Fig. 1
Fig. 1

Number NL of distinguishable speckle patterns in one polarization and one transverse speckle NT = 1 as a function of fiber length L: A, Δfc = Δfs; B, Δfc = Δf2; C, Δfc = Δf1, Δfc, correlation bandwidth; Δfs, source bandwidth; Δf1, width of one line; Δf2, line separation.

Fig. 2
Fig. 2

Speckle contrast C for a two-line source with variable line separation Δλ. Center wavelength λ = 0.89 μm; graded-index fiber length L = 3.2 m.

Equations (3)

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C 2 = δ P o 2 ̅ P ̅ o 2 = N i N o N o ( N i 1 ) .
N k = 2 N T k N L k N T k = M g / 2 , N L k = Δ f s / Δ f c , k = i , o .
C 2 = δ P o 2 ̅ P ̅ o 2 = 1 2 N L o .

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