Add to ORKGThe Penn State Finite Difference Time Domain Electromagnetic Scattering Code Versions TEA and TMA are two dimensional electromagnetic scattering codes based on the Finite Difference Time Domain Technique (FDTD) first proposed by Yee in 1966. The supplied version of the codes are two versions of our current FDTD code set. This manual provides a description of the codes and corresponding results for the default scattering problem. The manual is organized into eleven sections: introduction, Version TEA and TMA code capabilities, a brief description of the default scattering geometry, a brief description of each subroutine, a description of the include files (TEACOM.FOR TMACOM.FOR), a section briefly discussing scattering width computations, a ...
The scattering and absorption of electromagnetic waves by irregularly shaped particles and arbitrary...
Three computer programs are presented in this dissertation. The first one is a onedimensional (1D) p...
programs in the Matlab environment will be presented. Firstly, it will be demostrated the validity ...
The Finite Difference Time Domain Electromagnetic Scattering Code Version A is a three dimensional n...
The Penn State Finite Difference Time Domain (FDTD) Electromagnetic Scattering Code Version A is a t...
The Penn State Finite Difference Time Domain Electromagnetic Scattering Code Version C is a three-di...
The Penn State Finite Difference Time Domain Electromagnetic Code Version B is a three dimensional n...
The Penn State Finite Difference Time Domain Electromagnetic Scattering Code version D is a 3-D nume...
The Penn State Finite Difference Time Domain Electromagnetic Scattering Code Version B is a three di...
The Penn State Finite Difference Time Domain Electromagnetic Scattering Code Version D is a three di...
The Penn State Finite Difference Time Domain Electromagnetic Scattering Code Version C is a three di...
During this effort the tasks specified in the Statement of Work have been successfully completed. Th...
Four different FDTD computer codes and companion Radar Cross Section (RCS) conversion codes on magne...
ii For electromagnetics problems involving complicated source patterns, scattering objects, and inho...
This research aims to develop a novel domain decomposition finite-difference time domain technique (...
The scattering and absorption of electromagnetic waves by irregularly shaped particles and arbitrary...
Three computer programs are presented in this dissertation. The first one is a onedimensional (1D) p...
programs in the Matlab environment will be presented. Firstly, it will be demostrated the validity ...
The Finite Difference Time Domain Electromagnetic Scattering Code Version A is a three dimensional n...
The Penn State Finite Difference Time Domain (FDTD) Electromagnetic Scattering Code Version A is a t...
The Penn State Finite Difference Time Domain Electromagnetic Scattering Code Version C is a three-di...
The Penn State Finite Difference Time Domain Electromagnetic Code Version B is a three dimensional n...
The Penn State Finite Difference Time Domain Electromagnetic Scattering Code version D is a 3-D nume...
The Penn State Finite Difference Time Domain Electromagnetic Scattering Code Version B is a three di...
The Penn State Finite Difference Time Domain Electromagnetic Scattering Code Version D is a three di...
The Penn State Finite Difference Time Domain Electromagnetic Scattering Code Version C is a three di...
During this effort the tasks specified in the Statement of Work have been successfully completed. Th...
Four different FDTD computer codes and companion Radar Cross Section (RCS) conversion codes on magne...
ii For electromagnetics problems involving complicated source patterns, scattering objects, and inho...
This research aims to develop a novel domain decomposition finite-difference time domain technique (...
The scattering and absorption of electromagnetic waves by irregularly shaped particles and arbitrary...
Three computer programs are presented in this dissertation. The first one is a onedimensional (1D) p...
programs in the Matlab environment will be presented. Firstly, it will be demostrated the validity ...