INTERNAL AND NEAR-SURFACE ELECTROMAGNETIC-FIELDS FOR A SPHEROIDAL PARTICLE WITH ARBITRARY ILLUMINATION

A theoretical procedure in which a spheroidal coordinate separation-of-variables solution is used is developed for the determination of the internal and the near-surface electromagnetic fields for an arbitrary monochromatic field that is incident upon a homogeneous spheroidal particle. Calculations are presented for both the prolate and the oblate geometries, demonstrating the effects of particle size, particle axis ratio, and the orientation and character (plane-wave and focused Gaussian beam) of the incident field on the resultant internal and near-surface electromagnetic-held distributions.