This course explores the FDTD method for simulating electromagnetic waves, including implementation in Python. Topics covered include numerical methods, wave propagation, and absorbing boundary conditions.
A Python package for simulating electromagnetic waves using the FDTD method. The package includes examples and documentation for implementing the FDTD algorithm and visualizing the results.
This research paper presents a Python implementation of the FDTD method for simulating electromagnetic waves. The paper discusses the numerical method, implementation details, and example simulations.
A video tutorial on implementing the FDTD method in Python for simulating electromagnetic waves. The video covers the basics of the FDTD algorithm, Python implementation, and visualization of the results.
MEEP is a software package for simulating electromagnetic waves using the FDTD method. The package includes a Python interface and can be used for a variety of simulations, including photonics and optics.
This article presents a numerical simulation of electromagnetic waves using the FDTD method and Python. The article discusses the numerical method, implementation details, and example simulations.
This research paper presents a Python implementation of the FDTD method for simulating electromagnetic waves in complex media. The paper discusses the numerical method, implementation details, and example simulations.
A Python package for simulating electromagnetic waves using the FDTD method. The package includes examples and documentation for implementing the FDTD algorithm and visualizing the results.