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Meep is a free finite-difference time-domain (FDTD) simulation software package developed at MIT (initially by David Roundy) to model electromagnetic systems, along with the MPB eigenmode package.
On this page, a Windows- and a Linux distribution with a precompiled binary of a FDTD program will be released, by Kazuhiro Fujimor.
FDTD based Radar Cross section (RCS) modeling and simulation virtual tool by Gonca Cakir.
A free parallel electromagnetic eigensolver which can compute eigenmodes for arbitrary 3d waveguide structures, cavities, and photonic crystals.
By Steven G. Johnson
A free FDTD software, which supports distributed-memory parallelism, 1d/2d/3d/cylindrical problems, dispersive and nonlinear media, and PML absorbing boundaries.
By Steven G. Johnson
CAvity Modelling FRamework is a fast, flexible, friendly full-vectorial Maxwell solver. Although it can tackle general electromagnetic problems, its main focus is on applications in the field of photonics.
By Peter Bienstman
A three-dimensional accelerated FDTD (finite-difference time-domain) solver based on GPU (graphics card) technology.
A versatile 3D electromagnetic field simulator. It is based upon the powerful 3D-Finite Difference Time Domain Method (FDTD). Plane wave excitation with/without conducting ground can be used for bistatic scattering cross section calculation of arbitrary dielectric or metalic structures. A 3D Graphical User Interface is included in the basic module.
Commercial, university license.
A FDTD C++ code with Matlab output.
A borehole electromagnetic simulator, solving a comprehensive nondipolar formulation devised for layered anisotropic media with dip. It is based on the finite difference methods.
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