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Shapes is a finite difference time domain (FDTD) program that simulates scattering of electromagnetic waves on objects of various shapes made of various substances. Code by Gustav Meglicki and Boyana. Norris.
Real-time Java simulations of multiple interference dielectric filters.
An interactive Java applet for real-time simulation and visualization of the transmittance properties of multiple interference dielectric filters by Alexandre N. Kireev, Olivier J.F. Martin.
Based on DDSCAT DDA_field adds the following additional capabilities to DDSCAT: (1) treatment of particles in solvent, (2) calculation of near-field properties such as local electric field, including the calculation of near-field properties on a grid that is different from the DDA grid, (3) periodic boundary conditions, (4) consideration of many other shapes of particles, and of more than one particle in the simulation box. DDA_field by Serdar Ogut and Juan C. Idrobo.
Quasi-Monte-Carlo method (QMC) extending DDSCAT for efficient numerical orientation averaging of light scattering properties by Yasuhito Okada.
Grouping and adding method (GAM) for calculating light scattering by large fluffy aggregates based on the T-Matrix Method by Y Yasuhiko Okada.
A preliminary, didactic, not tested, not documented, very simple, not for production, version of DDSCAT written in Matlab by Piotr J. Flatau.
Lorenz-Mie theory in absorbing host medium by Jeppe Revall Frisvad.
Written in C++, CoreShellX allows the calculation of the scattering, absorption, and extinction cross-sections of a sphere of any size with an arbitrary number of concentric shells. Code by Charles Rohde.
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