Python framework for fast Lorenz Mie scattering simulations, including far field scattering, efficiencies, cross sections, and detector coupling for spheres and cylinders.

This package provides semi-analytical solutions to the scattering of time harmonic and static electromagnetic fields from spherical objects.

Atmosphere rendering for LÖVR framework

"gmie_cpp" -- A general purpose Mie scattering code in C++

A header-only library in C++20 for calculating Mie scattering efficiencies using the algorithm presented by Hong Du.

A post processing programm written in MATLAB for processing turbulent flames video obtained with High-Speed Mie Scattering imaging

Python package for sizing and fluorescence analysis of emulsion droplets by flow cytometry, based on Mie scattering theory (Fattaccioli et al., Soft Matter 2009).

Interactive flow cytometry calibration software for fluorescence and scattering workflows, with FCS loading, peak finding, fitting, profiles, and reusable calibration exports.

Python codes for Mie scattering

Scattnlay-based Python tools for multilayer Bragg onion spheres: scattering, colour, sweeps, and near-field analysis.