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FreeFEM
FreeFEM is a partial differential equation solver for non-linear multi-physics systems in 2D and 3D. Problems involving partial differential equations from several branches of physics, such as fluid-structure interactions, require interpolations of data on several meshes and their manipulation within one program. FreeFEM includes a fast interpolation algorithm and a language for the manipulation of data on multiple meshes.
pyGDM
pyGDM is a python toolkit for full-field electro-dynamical simulations and evolutionary optimization of nanostructures by Peter R. Wiecha. Is is based based on the Green dyadic method (GDM).
ParticleScattering.jl
A Julia package for solving large-scale electromagnetic scattering problems in two dimensions; specifically, those containing a large number of penetrable smooth particles. Provides the ability to optimize over the particle parameters for various design problems.
XLiFE++
XLiFE++ is an FEM-BEM C++ code developed by P.O.e.m.s. laboratory and I.R.M.A.R. laboratory, that can solve 1D / 2D / 3D, scalar / vector, transient / stationnary / harmonic problems.
It includes Boundary Elements methods for Maxwell equations.
Yuri Eremin, Adrian Doicu, Thomas Wriedt
The numerical scheme of the discrete sources method to analyze 3D plasmonic nanostructures accounting for the non-local effect
Journal of Computational Physics Volume 388, 1 July 2019, Pages 357-370
- Link free until May 17, 2019
Onelab Electromagnetic Scattering
Onelab model for solving various 3D electromagnetic scattering problems on an isolated object. Onelab (Open Numerical Engineering LABoratory) is an open-source, lightweight interface to finite element software.
ERMES
ERMES (Electric Regularized Maxwell Equations with Singularities) is a finite element code in frequency domain which implements in C++ a simplified version of the weighted regularized Maxwell equation method.
Bempp is a computational boundary element platform to solve electrostatic, acoustic and electromagnetic problems.
FDTD++
FDTD++ is advanced, fully featured finite-difference time-domain (FDTD) software, with included C++ source code and a number of features not found in any other software.
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