The finite-difference time-domain (FDTD) method is a popular numerical technique for simulating electromagnetic wave propagation in various media.
This course covers the fundamentals of the FDTD method and its application to electromagnetic wave simulation, including wave propagation, scattering, and absorption.
This paper presents a numerical study on the simulation of electromagnetic wave propagation using the FDTD method, with applications in antenna design and electromagnetic compatibility.
Lumerical's FDTD Solutions is a commercial software package for simulating electromagnetic wave propagation using the FDTD method, with applications in photonics, optoelectronics, and biophotonics.
This video lecture introduces the basics of the FDTD method and its application to electromagnetic wave simulation, including numerical dispersion and stability analysis.
This review article provides an overview of the FDTD method and its applications in electromagnetic wave simulation, including recent advances and future directions.
This technical report describes the use of the FDTD method for simulating electromagnetic wave propagation in various space-related applications, including antenna design and electromagnetic interference.
OpenEMS is an open-source software package for simulating electromagnetic wave propagation using the FDTD method, with applications in antenna design, electromagnetic compatibility, and photonics.