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References

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  1. W. H. Wells, “Loss of Resolution in H2O from Scattering,” J. Opt. Soc. Am. 59, 686 (1969).
    [CrossRef]
  2. W. H. Wells, “Theory of Small Angle Scattering,” in Optics of the Sea, AGARD Lect. Ser. 61 (1973), Chap. 3.3.
  3. L. B. Stotts, “Closed Form Expression for Optical Pulse Broadening in Multiple-Scattering Media,” Appl. Opt. 17, 504 (1978).
    [CrossRef] [PubMed]
  4. E. A. Bucher, R. M. Lerner, “Experiments on Light Pulse Communication and Propagation Through Atmospheric Clouds,” Appl. Opt. 12, 2401 (1973).
    [CrossRef] [PubMed]
  5. E. A. Bucher, “A Computer Simulation of Light Pulse Propagation for Communication Through Thick Clouds,” Appl. Opt. 12, 2391 (1973).
    [CrossRef] [PubMed]
  6. H. Hodara, “Experimental Results of Small Angle Scattering,” in Optics of the Sea, AGARD Lect. Ser. 61 (1973), Chap. 3.4.
  7. R. M. Lerner, J. E. Summers, “Monte Carlo Description of Time- and Space-Resolved Multiple Forward Scatter in Natural Water,” Appl. Opt. 12, 861 (1982).
    [CrossRef]

1982 (1)

R. M. Lerner, J. E. Summers, “Monte Carlo Description of Time- and Space-Resolved Multiple Forward Scatter in Natural Water,” Appl. Opt. 12, 861 (1982).
[CrossRef]

1978 (1)

1973 (4)

E. A. Bucher, “A Computer Simulation of Light Pulse Propagation for Communication Through Thick Clouds,” Appl. Opt. 12, 2391 (1973).
[CrossRef] [PubMed]

E. A. Bucher, R. M. Lerner, “Experiments on Light Pulse Communication and Propagation Through Atmospheric Clouds,” Appl. Opt. 12, 2401 (1973).
[CrossRef] [PubMed]

W. H. Wells, “Theory of Small Angle Scattering,” in Optics of the Sea, AGARD Lect. Ser. 61 (1973), Chap. 3.3.

H. Hodara, “Experimental Results of Small Angle Scattering,” in Optics of the Sea, AGARD Lect. Ser. 61 (1973), Chap. 3.4.

1969 (1)

Bucher, E. A.

Hodara, H.

H. Hodara, “Experimental Results of Small Angle Scattering,” in Optics of the Sea, AGARD Lect. Ser. 61 (1973), Chap. 3.4.

Lerner, R. M.

R. M. Lerner, J. E. Summers, “Monte Carlo Description of Time- and Space-Resolved Multiple Forward Scatter in Natural Water,” Appl. Opt. 12, 861 (1982).
[CrossRef]

E. A. Bucher, R. M. Lerner, “Experiments on Light Pulse Communication and Propagation Through Atmospheric Clouds,” Appl. Opt. 12, 2401 (1973).
[CrossRef] [PubMed]

Stotts, L. B.

Summers, J. E.

R. M. Lerner, J. E. Summers, “Monte Carlo Description of Time- and Space-Resolved Multiple Forward Scatter in Natural Water,” Appl. Opt. 12, 861 (1982).
[CrossRef]

Wells, W. H.

W. H. Wells, “Theory of Small Angle Scattering,” in Optics of the Sea, AGARD Lect. Ser. 61 (1973), Chap. 3.3.

W. H. Wells, “Loss of Resolution in H2O from Scattering,” J. Opt. Soc. Am. 59, 686 (1969).
[CrossRef]

Appl. Opt. (4)

J. Opt. Soc. Am. (1)

Optics of the Sea (2)

W. H. Wells, “Theory of Small Angle Scattering,” in Optics of the Sea, AGARD Lect. Ser. 61 (1973), Chap. 3.3.

H. Hodara, “Experimental Results of Small Angle Scattering,” in Optics of the Sea, AGARD Lect. Ser. 61 (1973), Chap. 3.4.

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Figures (3)

Fig. 1
Fig. 1

Multipath delay vs range in seawater, comparison of Monte Carlo simulations to small angle scattering theory.

Fig. 2
Fig. 2

Temporal waveforms of downwelling irradiance in successive annular rings, 60-m range (scattering range bR = 6).

Fig. 3
Fig. 3

Cumulative distribution of downwelling irradiance, comparison between Monte Carlo simulations and small angle theory.

Equations (5)

Equations on this page are rendered with MathJax. Learn more.

F ( ψ , R ) = 2 π J 0 ( 2 π θ ψ ) f ( θ , R ) θ d θ , f ( θ , R ) = 2 π J 0 ( 2 π θ ψ ) F ( ψ , R ) ψ d ψ .
F ( ψ , R ) = exp [ - 0 R α ( r ) d r + 0 R ( ψ r R , r ) d r ] ,
σ ( θ , r ) = b ( r ) · s ( θ ) ,
Δ t = R c { 8 / 27 b R γ 0 2 [ ( 1 + 9 4 b R γ 0 2 ) 3 / 2 - 1 ] - 1 } ,
s ( θ ) = θ 0 2 π ( θ 0 2 + θ 2 ) 3 / 2 ,

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