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Delphi code by Uwe Kätzel to compute multiple scattering by a number of spheres.
- Link (22 Jul 2009)
- Thesis: Uwe Kätzel: Dynamic Light Scattering for the Characterization of Polydisperse Fractal Systems by the Example of Pyrogenic Silica. Dissertation, Technischen Universität Dresden, Dresden 2007.
Yu-lin Xu's GMM (Generalized Multiparticle Mie-Solution) Fortran codes for multi-particle light-scattering calculations. There are codes for fixed-orientation or random-orientation of a number of spheres, core-mantle spheres, various shaped particles.
Pol-MC by Daniel Côté, Alex Vitkin and Brian Wilson is a three-dimensional polarization-sensitive Monte Carlo algorithm for tissue optics.

Fortran code based on the Coupled Diple Methode by Shermila Singham. Apparently the sample scatterer comming with the code is a small sphere.
Mie program for PDA (Pocket-PC) with Windows CE by Norbert Riefler. Based on the Matlab clone LME (Lightwave Math Engine).
OpenDDA by James Mc Donald is a highly optimised computational framework, written in the C language, for the Discrete Dipole Approximation, a numerical method for calculating the optical properties associated with a target of arbitrary geometry that is widely used in atmospheric, astrophysical and industrial simulations.
- Link (6 Jun 2009) broken
- Link (27 Jan 2022) Archive
- Link (27 Jan 2022) on GitHub

Fortran code for a semi-empirical model of absorption and scattering by isotropic fractal aggregates of spheres by Pascal Rannou.
Giacomo Benelli: Development of the fictitious sources method for stratified media and design of resonant cavities antennas. Thèse, Université Paul Cézanne, Marseille 2007.
This Fortran program by Dan Bruton calculates scattering quantities for spheres with l outer layers, i.e., a core with l spherical concentric shells.
C program for a coated sphere by Jianqi Shen. The rar file includes the code, a doc and a paper decribing the algorithm.

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