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M |
N |
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P |
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R |
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T |
U |
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- scattering models, see also scattering calculations
- ADA, see anomalous diffraction approximation
- Aden-Kerker theory, see coated sphere
- continued boundary conditions method for solving electromagnetic scattering by arbitrarily shaped particles: Kyurkchan AG and Smirnova 2007
- EBCM, extended boundary conditions method, see T-matrix method
- eikonal approximation
- extended boundary conditions method, see T-matrix method
- FDTD, see finite difference time domain
- finite difference time domain (FDTD)
- fractal light scattering models
- generalized Lorenz-Mie theory, see also Mie theory
- for a homogeneous spheroid in an arbitrarily located, shaped, and oriented beam: Xu F et al 2007a
- geometric optics, see ray tracing
- improved geometric optics
- Mie theory
- nonspherical/inhomogeneous particles
- pattern equation method for arbitrarily shaped particles
- physical optics
- ray optics, see ray tracing
- Rayleigh model (particles much smaller than the wavelength of light)
- Rayleigh-Gans-Debye model (tenuous particles)
- Sh-matrices method
- sphere
- separation-of-variables method
- structured particles
- T-matrix method
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Modified: 19-Apr-2008 |
