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  1. N. G. Alexopoulos, N. K. Uzunoglu, Appl. Opt. 17, 235 (1978).
    [CrossRef] [PubMed]
  2. We retain the notation of Ref. 1 for convenient comparison to that paper even though this may be at variance with common usage.
  3. J. A. Stratton, Electromagnetic Theory (McGraw-Hill, New York, 1941), pp. 568–569.
  4. Here we normalize Stratton’s Wa, the total energy flow per second, by the energy density of the incident wave in order to obtain the cross section.
  5. M. Kerker, J. Opt. Soc. Am. 65, 375 (1975). See also H. Chew, M. Kerker, J. Opt. Soc. Am. 66, 445 (1976); M. Kerker, D. D. Cooke, W. D. Ross, J. Paint Technol. 47, 33 (1975); M. Kerker, D. D. Cooke, J. Coatings Tech. 48, 35 (1976).
    [CrossRef]
  6. D. S. Saxon, Lectures on the Scattering of Light, Department of Meteorology, U. California, Los Angeles (1955). See also R. G. Newton, Scattering Theory of Waves and Particles (McGraw-Hill, New York, 1966); M. Kerker, D. D. Cooke, H. Chew, P. J. McNulty, J. Opt. Soc. Am. 68, 592 (1978); M. Kerker, The Scattering of Light and other Electromagnetic Radiation (Academic, New York, 1969), p. 430.
    [CrossRef]
  7. H. Chew, P. J. McNulty, M. Kerker, Phys. Rev. A 13, 396 (1976); H. Chew, M. Sculley, M. Kerker, P. J. McNulty, D. D. Cooke, J. Opt. Soc. Am. 68, 000 (1978); M. Kerker, P. J. McNulty, M. Sculley, H. Chew, D. D. Cooke, J. Opt. Soc. Am.68, in press (1978).
    [CrossRef]

1978

1976

H. Chew, P. J. McNulty, M. Kerker, Phys. Rev. A 13, 396 (1976); H. Chew, M. Sculley, M. Kerker, P. J. McNulty, D. D. Cooke, J. Opt. Soc. Am. 68, 000 (1978); M. Kerker, P. J. McNulty, M. Sculley, H. Chew, D. D. Cooke, J. Opt. Soc. Am.68, in press (1978).
[CrossRef]

1975

M. Kerker, J. Opt. Soc. Am. 65, 375 (1975). See also H. Chew, M. Kerker, J. Opt. Soc. Am. 66, 445 (1976); M. Kerker, D. D. Cooke, W. D. Ross, J. Paint Technol. 47, 33 (1975); M. Kerker, D. D. Cooke, J. Coatings Tech. 48, 35 (1976).
[CrossRef]

Alexopoulos, N. G.

Chew, H.

H. Chew, P. J. McNulty, M. Kerker, Phys. Rev. A 13, 396 (1976); H. Chew, M. Sculley, M. Kerker, P. J. McNulty, D. D. Cooke, J. Opt. Soc. Am. 68, 000 (1978); M. Kerker, P. J. McNulty, M. Sculley, H. Chew, D. D. Cooke, J. Opt. Soc. Am.68, in press (1978).
[CrossRef]

Kerker, M.

H. Chew, P. J. McNulty, M. Kerker, Phys. Rev. A 13, 396 (1976); H. Chew, M. Sculley, M. Kerker, P. J. McNulty, D. D. Cooke, J. Opt. Soc. Am. 68, 000 (1978); M. Kerker, P. J. McNulty, M. Sculley, H. Chew, D. D. Cooke, J. Opt. Soc. Am.68, in press (1978).
[CrossRef]

M. Kerker, J. Opt. Soc. Am. 65, 375 (1975). See also H. Chew, M. Kerker, J. Opt. Soc. Am. 66, 445 (1976); M. Kerker, D. D. Cooke, W. D. Ross, J. Paint Technol. 47, 33 (1975); M. Kerker, D. D. Cooke, J. Coatings Tech. 48, 35 (1976).
[CrossRef]

McNulty, P. J.

H. Chew, P. J. McNulty, M. Kerker, Phys. Rev. A 13, 396 (1976); H. Chew, M. Sculley, M. Kerker, P. J. McNulty, D. D. Cooke, J. Opt. Soc. Am. 68, 000 (1978); M. Kerker, P. J. McNulty, M. Sculley, H. Chew, D. D. Cooke, J. Opt. Soc. Am.68, in press (1978).
[CrossRef]

Saxon, D. S.

D. S. Saxon, Lectures on the Scattering of Light, Department of Meteorology, U. California, Los Angeles (1955). See also R. G. Newton, Scattering Theory of Waves and Particles (McGraw-Hill, New York, 1966); M. Kerker, D. D. Cooke, H. Chew, P. J. McNulty, J. Opt. Soc. Am. 68, 592 (1978); M. Kerker, The Scattering of Light and other Electromagnetic Radiation (Academic, New York, 1969), p. 430.
[CrossRef]

Stratton, J. A.

J. A. Stratton, Electromagnetic Theory (McGraw-Hill, New York, 1941), pp. 568–569.

Uzunoglu, N. K.

Appl. Opt.

J. Opt. Soc. Am.

M. Kerker, J. Opt. Soc. Am. 65, 375 (1975). See also H. Chew, M. Kerker, J. Opt. Soc. Am. 66, 445 (1976); M. Kerker, D. D. Cooke, W. D. Ross, J. Paint Technol. 47, 33 (1975); M. Kerker, D. D. Cooke, J. Coatings Tech. 48, 35 (1976).
[CrossRef]

Phys. Rev. A

H. Chew, P. J. McNulty, M. Kerker, Phys. Rev. A 13, 396 (1976); H. Chew, M. Sculley, M. Kerker, P. J. McNulty, D. D. Cooke, J. Opt. Soc. Am. 68, 000 (1978); M. Kerker, P. J. McNulty, M. Sculley, H. Chew, D. D. Cooke, J. Opt. Soc. Am.68, in press (1978).
[CrossRef]

Other

D. S. Saxon, Lectures on the Scattering of Light, Department of Meteorology, U. California, Los Angeles (1955). See also R. G. Newton, Scattering Theory of Waves and Particles (McGraw-Hill, New York, 1966); M. Kerker, D. D. Cooke, H. Chew, P. J. McNulty, J. Opt. Soc. Am. 68, 592 (1978); M. Kerker, The Scattering of Light and other Electromagnetic Radiation (Academic, New York, 1969), p. 430.
[CrossRef]

We retain the notation of Ref. 1 for convenient comparison to that paper even though this may be at variance with common usage.

J. A. Stratton, Electromagnetic Theory (McGraw-Hill, New York, 1941), pp. 568–569.

Here we normalize Stratton’s Wa, the total energy flow per second, by the energy density of the incident wave in order to obtain the cross section.

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Figures (3)

Fig. 1
Fig. 1

The smallest size parameter α at which Qext is positive versus ni(nr = √2).

Fig. 2
Fig. 2

Normalized extinction cross section Qext/πa2 vs α for ni = 0.05 (· · · ·), 0.1 (—), 0.3 (- - -), (nr = √2).

Fig. 3
Fig. 3

Normalized cross sections Qext/πa2 (- - -), Qamp/πa2 (· · · ·), and Qsca/πa2 (—) vs α in a region where Qext → 0, i.e., at α = 3.445, and na = √2 − i.

Equations (4)

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S R = 1 2 ( E i θ H ˜ i ϕ E i ϕ H ˜ i θ ) + 1 2 ( E s θ H ˜ s ϕ E s ϕ H ˜ s θ ) + 1 2 ( E i θ H ˜ s ϕ + E s θ H ˜ i ϕ E i ϕ H ˜ s θ E s ϕ H ˜ i θ ) ,
Q ext = Q sca + Q abs 0 ,
Q ext = Q sca + Q amp 0 ,
E s c ( r ) = [ exp ( i k r ) k 2 / 4 π r ] × υ exp ( i k r ˆ · r ) ( n a 2 1 ) × { r ˆ × [ r ˆ × E ( r ) ] } d υ ,

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