Light scattering from small spherical particles has applications in a vast number of disciplines including astrophysics, meteorology optics and particle sizing. Mie theory provides an exact analytical characterization of plane wave scattering from spherical dielectric objects. There exist many variants of the Mie theory where fundamental assumptions of the theory has been relaxed to make generalizations. Notable such extensions are generalized Mie theory where plane waves are replaced by optical beams, scattering from lossy particles, scattering from layered particles or shells and scattering of partially coherent (non-classical) light. However, no work has yet been reported in the literature on modifications required to account for scatter...
We describe the method to extend the generalized Mie approach to the case of light scattering by uni...
Light scattering by a small spherical particle, a central topic for electromagnetic scattering theor...
Abstract—Presently we study multiple-scattering problems involving moving objects. This also covers ...
ABSTRACT—Recently non-relativistic boundary conditions based on the Lorentz force formulas have been...
Subm. to European Journal of PhysicsThe scattering of an electromagnetic plane wave by a spherical p...
Mie scattering is an important tool for diagnosing microparticles or aerosol particles in technical ...
Abstract—Recently non-relativistic boundary conditions based on the Lorentz force formulas have been...
To study blood-related diseases, measurement methods must be developped to study cardiac and hematol...
When electromagnetic radiation falls upon a material body of any kind, the associated electric field...
Scattering described today as Rayleigh Scattering represents something that is far short of what R...
Abstract—Presently we study multiple-scattering problems involving moving objects. This also covers ...
We report a new approach for accurate calculation of optical cross sections and internal and scatter...
The phenomenon of light scattering in the sky is observable in everyday life. When light energy enco...
Light scattering by a small spherical particle, a central topic for electromagnetic scattering theor...
Azimuthal asymmetry is present in the Mie scattering pattern of light scattered by a homogeneous sph...
We describe the method to extend the generalized Mie approach to the case of light scattering by uni...
Light scattering by a small spherical particle, a central topic for electromagnetic scattering theor...
Abstract—Presently we study multiple-scattering problems involving moving objects. This also covers ...
ABSTRACT—Recently non-relativistic boundary conditions based on the Lorentz force formulas have been...
Subm. to European Journal of PhysicsThe scattering of an electromagnetic plane wave by a spherical p...
Mie scattering is an important tool for diagnosing microparticles or aerosol particles in technical ...
Abstract—Recently non-relativistic boundary conditions based on the Lorentz force formulas have been...
To study blood-related diseases, measurement methods must be developped to study cardiac and hematol...
When electromagnetic radiation falls upon a material body of any kind, the associated electric field...
Scattering described today as Rayleigh Scattering represents something that is far short of what R...
Abstract—Presently we study multiple-scattering problems involving moving objects. This also covers ...
We report a new approach for accurate calculation of optical cross sections and internal and scatter...
The phenomenon of light scattering in the sky is observable in everyday life. When light energy enco...
Light scattering by a small spherical particle, a central topic for electromagnetic scattering theor...
Azimuthal asymmetry is present in the Mie scattering pattern of light scattered by a homogeneous sph...
We describe the method to extend the generalized Mie approach to the case of light scattering by uni...
Light scattering by a small spherical particle, a central topic for electromagnetic scattering theor...
Abstract—Presently we study multiple-scattering problems involving moving objects. This also covers ...