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MiePy
MiePy by Jahn Parker is a Python module to solve Maxwell's equations for a cluster of particles using the generalized multiparticle Mie theory (GMMT) .
VoxScatter
Matlab repository for computing electromagnetic scattering by dielectric particles.
PyMieSim
PyMieSim by Martin Poinsinet de Sivry-Houle is a very easy to install/use tool for extensive Mie scattering analysis. It includes a focused Gaussian beam as incident field.
MENP
An Open-Source MATLAB Implementation of Multipole Expansion for Applications in Nanophotonics
QPMS software suite
QPMS (QPMS Photonic Multiple Scattering) is a toolkit for frequency-domain simulations of photonic systems consisting of compact objects (particles) inside a homogeneous medium.
Nonlocal Conductivity Tensor for a Sphere
Matlab codes for Mie-Type Calculation of the Generalized Electromagnetic Nonlocal Conductivity Tensor for a Sphere and Its Equivalence to the T-Matrix Operator
Diffused-Particle-Method
The Foldy-Lax equation is generalized for a medium which consists of particles with both electric and magnetic responses. The result is used to compute fields scattered from ensembles of particles.
Electric Field Calculation Method of Auxiliary Sources
The Electric Field Calculation for Mobile Communication Coverage in Buildings and Indoor Areas by Using the Method of Auxiliary Sources
Monte Carlo software and MATLAB toolbox for simulating light transport in biological tissue-
WulffDDSCAT
Wulff-Based Approach to Modeling the Plasmonic Response of Single Crystal, Twinned, and Core–Shell Nanoparticles. A standalone user-friendly graphical user interface (GUI) that uses both kinetic and thermodynamic Wulff constructions to generate a dipole array for complex shapes, as well as the necessary input files for DDSCAT-based numerical approaches.
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