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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).
A Mathematica notebook for the article
Laser Trapping of Microscopic Particles for Undergraduate Experiments by Pastel, Struthers, Ringle, Rogers, Rohde, and Geiser in the American Journal of Physics, 68 (2000) 11, 993-1000).
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)
Double precision FORTRAN program by K. A. Fuller for scattering and absorption of light by homogeneous spherical particles, which will provide cross sections for extinction, total scattering, differential scattering, and absorption as well as the lidar (radar) backscattering efficiency, the parameter, and the phase matrix.
Book on the Generalied Lorenz-Mie theory for scattering by a sphere in a Gaussian beam giving full desciption of the theory and FORTRAN programs:
G. Gouesbet, G. Grehan, B. Maheu, K. F. Ren, Electromagnetic Scattering of Shaped Beams (Generalized Lorenz-Mie Theory), LESP, CORIA, INSA de Rouen, Saint Etienne du Rouvray, March 19, 1998.
Windows (95) program for Mie scattering, including a Gaussian laser beam and especially including Debye series expansion of the scattering coefficients.
Distributed by Valley Scientific, Inc.
- Original Fax.: ++1-330-483-8003
- Original Link (27 Nov 2008, offline)
Mie Scattering in Particle Ensembles under consideration of Large Size Parameters by Sebastian Wolf.
Code (C and Fortran versions) for simulating multiple Rayleigh scattering.
Windows program by Philip Laven based on the classic BHMIE algorithm including calculations using the Debye series. See also
Philip Laven, Simulation of Rainbows, Coronas, and Glories by use of Mie Theory, Applied Optics, Vol. 42, Issue 3, pp. 436-444.
Adobe PDF-file of Mie scattering code in C by Scott Prahl.
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