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Fortran 95 Mie Theory Library
FDTD.jl
An implementation of the Finite Difference Time Domain (FDTD) method in 2D and 3D for Electromagnetic Simulation in Julia.
OpenSANS: A Semi-Analytical solver for Nonlocal plasmonicS
The method comprises of a generalisation of Mie theory to properly address the hydrodynamic motion of free electrons in metals and a compact S matrix formulation for the efficient treatment of multiple layers.
Python wrapper for Multiple Sphere T-Matrix (MSTM) code for the calculation of extinction spectra of nanoparticle aggregates.
This is the electromagnetic field analysis program for spherical particles. The radiation force acting on the sphere can be analyzed. This is based on Mie scattering theory.
PyMeepPlasmonics
Free and open-source code package designed to perform PyMEEP FDTD simulations applied to Plasmonics.
LIP2024
The 14th International conference on Laser-light and Interactions with Particles (LIP2024) will be held in Xi'an, China, from September 19th-22nd, 2024.
Abstract submission ends...................... April 30th, 2024.
IrisFDTD
IrisFDTD-Academic is a Fortran implementation of the Finite-Difference Time-Domain (FDTD) method. IrisFDTD-Academic is a "toy version" of the IrisFDTD program.
CoupledDipole.jl
Coupled-dipole simulations for electromagnetic scattering of light by sub-wavelength particles in arbitrary 3-dimensional configurations.
Gyptis is a package to solve Maxwell’s equations with the finite element method. It is in early stage and currently being actively developed, so features might come and go.
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