This article presents a numpy implementation of the FDTD method with dispersion compensation for simulating electromagnetic waves in inhomogeneous media.
A Python package for FDTD simulations using NumPy, featuring dispersion compensation and absorbing boundary conditions for accurate simulations of electromagnetic waves.
Research paper discussing numerical dispersion compensation techniques in FDTD simulations, including a numpy implementation with absorbing boundary conditions.
Course notes from MIT discussing the FDTD method with dispersion compensation and absorbing boundary conditions, including a numpy implementation example.
Video tutorial demonstrating how to implement dispersion compensation in FDTD simulations using NumPy, including absorbing boundary conditions.
Preprint article discussing FDTD simulations with dispersion compensation and absorbing boundary conditions, including a numpy implementation for electromagnetic wave simulations.
Example code from the NumPy documentation demonstrating an implementation of the FDTD method with dispersion compensation using NumPy arrays.
SciPy documentation discussing the implementation of absorbing boundary conditions for FDTD simulations using NumPy, including dispersion compensation techniques.