Supplemental material for Capek, Lundgren, Gustafsson, Schab, and Jelinek, "Characteristic Mode Decomposition Using the Scattering Dyadic in Arbitrary Full-Wave Solvers," IEEE AWPL, 2022.
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Updated
May 29, 2024 - MATLAB
Supplemental material for Capek, Lundgren, Gustafsson, Schab, and Jelinek, "Characteristic Mode Decomposition Using the Scattering Dyadic in Arbitrary Full-Wave Solvers," IEEE AWPL, 2022.
Analysis of Polarization and Frequency Selective Surfaces
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 tool to automatic design Multiple-Stub Matching Networks (MSMN) for wideband on Transmission Lines, using Metaheuristics Optimization Algorithms.
FDTD simulation of Maxwell-Schrodinger system
Fourier Modal Method for multilayer metamaterials. Mirror of https://gitlab.com/nannos/nannos
Plane Wave Expansion method for photonic crystals. Mirror of https://gitlab.com/protis/protis
FFT Volume Integral for Non-linear Super Conductors
Computational Photonics in Python with the finite element method. Mirror of https://gitlab.com/gyptis/gyptis
Austin Benchmark Suites for Computational Electromagnetics
Parallel open source MLFMA (multi level fast multipole algorithm)
Rapid, accurate calculation of rough metal surface impedance and effective conductivity in the Julia programming language
FFT-PEEC code for electromagnetic problems
A python module containing tools for Discontinuous Galerkin numerical methods. Archived, continued in: https://github.com/lmdiazangulo/PyDG1D
An example of an iterative, scattering-based algorithm for computing characteristic modes.
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.
visualizing Fast Multipole Method (FMM) execution
Pioneering the design of materials to harness heat.
Python script that solves for the steady-state power density of the WiFi signal over the downstairs of my house.
Example Fenics antenna simulations as part of "Basics of Antenna Modeling with FEniCS Finite Element Suite"
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