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1 July 1997 Integral equation solution to the scattering of electromagnetic radiation by a system of two interacting triaxial dielectric ellipsoids: the case of a two red blood cell Rouleau
Georgios Stamatakos, Nikolaos K. Uzunoglou, Dido M. Yova
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Abstract
A mathematical formulation of the problem of electromagnetic wave scattering by a system of two homogeneous triaxial dielectric ellipsoids of complex index of refraction is presented. The analysis is based on the Lippman–Schwinger integral equation for an electric field. The corresponding integral equation for the scattering, which contains two singular kernels, is transformed into a pair of nonsingular integral equations for the angular Fourier transform of the electric field inside each scatterer. The latter equations are solved by reducing them by quadrature into a matrix equation. The resulting solutions are used to calculate the scattering amplitude. As a numerical application, the case of a two red blood cell rouleau model is considered. Typical values of the appropriate discretization parameters, which proved sufficient for achieving convergence, are presented, along with validity tests. The effect of the electromagnetic coupling of the scatterers is also illustrated. Efficient techniques, which are capable of reducing the rather high computing demands of the analysis, such as parallel processing, are both suggested and applied.
Georgios Stamatakos, Nikolaos K. Uzunoglou, and Dido M. Yova "Integral equation solution to the scattering of electromagnetic radiation by a system of two interacting triaxial dielectric ellipsoids: the case of a two red blood cell Rouleau," Journal of Biomedical Optics 2(3), (1 July 1997). https://doi.org/10.1117/12.275331
Published: 1 July 1997
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Cited by 1 scholarly publication.
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KEYWORDS
Scattering

Electromagnetic scattering

Blood

Dielectrics

Light scattering

Electromagnetic radiation

Mie scattering

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