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James Lock's Fortran code for the Finely stratified sphere model (Vol. 25, No. 12/December 2008/J. Opt. Soc. Am. A).
- Link (28 Aug 2025) local copy
A complete Fortran Mie Scattering program for homogeneous and non-homogeneous spherical particles.
 
The Mie Simulator GUI is an open-source, user-friendly tool designed to calculate the characteristics of Mie scatterers.
Online nearfield Mie calculator
LX-MIE is a Mie scattering code that calculates:
- Mie efficiencies, cross sections, and asymmetry parameters
- Scattering phase functions for a given set of scattering angles
- Representation of the phase function as a Legendre series
NeuralMie, a neural network Mie scattering emulator that can directly compute the bulk optical properties of a diverse range of aerosol populations and is appropriate for use in atmosphere simulations where aerosol optical properties are parameterized.
This Julia package provides semi-analytical solutions to the scattering of time harmonic and static electromagnetic fields from spherical objects (amongst others known as Mie solutions or Mie scattering).
This repository is a rudimentary c++ implementation of Mie scattering. It is meant to be used as a library for fast and stable low level evaluation of Mie scattering phenomenons.
mieMultilayer is a Python code for calculating light scattering, absorption, and near field enhancement in a multilyered sphere using Mie theory.
Mie-Theory-Fortran-Library
Fortran 95 Mie Theory Library
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