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Applied Optics

Applied Optics


  • Vol. 25, Iss. 15 — Aug. 1, 1986
  • pp: 2464–2466

Internal and near-surface scattered field of a spherical particle at resonant conditions: comments

Ramesh Bhandari  »View Author Affiliations

Applied Optics, Vol. 25, Issue 15, pp. 2464-2466 (1986)

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No abstract available.

Original Manuscript: April 7, 1986
Published: August 1, 1986

Ramesh Bhandari, "Internal and near-surface scattered field of a spherical particle at resonant conditions: comments," Appl. Opt. 25, 2464-2466 (1986)

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  1. P. Chylek, J. D. Pendleton, R. G. Pinnick, “Internal and Near-Surface Scattered Field of a Spherical Particle at Resonant Conditions,” Appl. Opt. 24, 3940 (1985). [CrossRef] [PubMed]
  2. See, for example, P. W. Dusel, M. Kerker, D. D. Cooke, “Distribution of Absorption Centers Within Irradiated Spheres,” J. Opt. Soc. Am. 69, 55 (1979); P. R. Conwell, P. W. Barber, C. K. Rushforth, “Resonant Spectra of Dielectric Spheres,” J. Opt. Soc. Am. A1, 62 (1984); J. R. Probert-Jones, “Resonance component of Backscattering by Large Dielectric Spheres,” J. Opt. Soc. Am. A1, 822 (1984); W. M. Greene, R. E. Spjut, E. Bar-Ziv, A. F. Sarofim, J. P. Longwell, “Photophoresis of Irradiated Spheres: Absorption Centers,” J. Opt. Soc. Am. B2, 998 (1985). [CrossRef]
  3. R. Bhandari, “Specific Absorption of a Tiny Absorbing Particle Embedded Within a Nonabsorbing Particle,” submitted to Appl. Opt.25, (Month, 1986). [CrossRef] [PubMed]
  4. H. C. van de Hulst, Light Scattering by Small Particles (Dover, New York, 1981).
  5. In fact, the minimum following the first large peak in Fig. 3 of Ref. 1 is significantly different from zero because of the insufficient smallness of the step size to reveal the local details.
  6. This is easily seen from the analytic expressions for the electric field intensity within the equatorial plane. The equatorial plane is the yz plane in our discussion.

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