Shooting and bouncing rays method for radar cross-section calculations, accelerated with BVH algorithm running on GPU (C++ AMP).

Analysis of Polarization and Frequency Selective Surfaces

Pioneering the design of materials to harness heat.

FFT-PEEC code for electromagnetic problems

Austin Benchmark Suites for Computational Electromagnetics

Fourier Modal Method for multilayer metamaterials. Mirror of https://gitlab.com/nannos/nannos

Example Fenics antenna simulations as part of "Basics of Antenna Modeling with FEniCS Finite Element Suite"

Computational Photonics in Python with the finite element method. Mirror of https://gitlab.com/gyptis/gyptis

Supplemental material for Capek, Lundgren, Gustafsson, Schab, and Jelinek, "Characteristic Mode Decomposition Using the Scattering Dyadic in Arbitrary Full-Wave Solvers," IEEE AWPL, 2022.

semba-fdtd is a finite-differences in time domain solver with special focus on EMC problems. semba-fdtd can be used as a standalone solver or integrated within a FreeCAD workbench (www.elemwave.com).

A MATLAB script that simulates transmission lines embedded in anisotropic media.

Plane Wave Expansion method for photonic crystals. Mirror of https://gitlab.com/protis/protis

An example of an iterative, scattering-based algorithm for computing characteristic modes.

A Julia package for solving two-dimensional electromagnetic scattering from numerous particles

Python script that solves for the steady-state power density of the WiFi signal over the downstairs of my house.

Rapid, accurate calculation of rough metal surface impedance and effective conductivity in the Julia programming language

A python module containing tools for Discontinuous Galerkin numerical methods. Archived, continued in: https://github.com/lmdiazangulo/PyDG1D

Design and simulation tools for self-collimating crystals.

Discontinuous Galerkin Time Domain code in FORTRAN.

Supplemental material for M. Gustafsson, L. Jelinek, K. Schab, M. Capek, "Unified Theory of Characteristic Modes" Parts I and II. See the reference section of the readme for links to both papers.