Abstract
Based on the generalized Lorenz–Mie theory (GLMT), a method of describing a Gaussian beam scattering by an eccentric sphere is developed. For a general case, the eccentric sphere is arbitrarily located and arbitrarily oriented with respect to the illuminating Gaussian beam. The simulations are validated for plane wave scattering by an eccentric sphere and shaped beam scattering by a coated sphere. The far-field scattering and extinction efficiency factors of scattering of a Gaussian beam by an eccentric sphere in the general case of oblique illumination are discussed.
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