|
|
 |
The code by Nikolai Voshchinnikov calculates the extinction, scattering and absorption efficiency factors for n-layered spheres. The recursive algorithm of Wu & Wang is used.
Windows program for single and multiple scattering by August Miller. The latest version allows some calculations of the axial internal E-field magnitude. Source code is also available.
- Email: This email address is being protected from spambots. You need JavaScript enabled to view it. (16 Jan 2004)
- Original link (16 Jan 2004, offline)
A Windows based software developed to perform electromagnetic scattering simulations mainly based on classical Mie theory solution.
This Windows based light scattering program by Miroslaw Jonasz calculates angular scattering patterns as well as the scattering, absorption, and attenuation parameters of a single homogeneous sphere according to Mie theory.
Mie Mathematica Worksheet by Art Lampado.
The code will calculate and plot (where appropriate) the usual Mie information including the scattering, absorption and extinction coefficients, cross sections, and efficiencies. As well, the asymmetry factor, albedo, phase functions (both 2D and 3D), polarization ratio, and the amplitude scattering and Mueller matrices can be obtained.
This Windows based light scattering program calculates an angular scattering pattern as well as scattering, absorption, and attenuation parameters of a single coated sphere according to the Aden/Kerker theory.
Written by Miroslaw Jonasz, based on an algorithm developed by Toon and Ackerman (1998).
Matlab program to compute scattering, internal fields and cross sections by dielectric or magnetic sphere and coated sphere by Christian Mätzler.
IRIS uses rigorous Mie scattering theory to produce accurate simulations of glories, fogbows and coronae.
Available from Les Cowley.
- Email: This email address is being protected from spambots. You need JavaScript enabled to view it.
- Link (28 Nov 2008)
|
|
|
|
