Title of article :
Half- and Quarter-Sweeps Implementation of Finite-Difference Time-Domain Method
Author/Authors :
Md Nusi, Noraini Universiti Tenaga Nasional - Department of Engineering Sciences and Mathematics, Malaysia , Md Nusi, Noraini Institute for Mathematical Research (INSPEM) - Laboratory of Computational Science and Informatics, Malaysia , Othman, Mohamed Institute for Mathematical Research (INSPEM) - Laboratory of Computational Science and Informatics, Malaysia , Othman, Mohamed Universiti Putra Malaysia - Department of Communication Technology and Network, Malaysia
Abstract :
The propagation, diffraction, scattering, penetration and interaction phenomena of electromagnetic waves are governed by the well known Maxwell s equations. The applications of Maxwell s equations can be found in many disciplines in science and engineering particularly in antenna design and analysis. Finite Difference Time Domain (FDTD) is a popular numerical simulation technique for solving problems related to Maxwell’s equations.
Keywords :
Maxwell s equation , Finite Difference Time Domain (FDTD) , scalar wave , equation.
Journal title :
Malaysian Journal of Mathematical Sciences
Journal title :
Malaysian Journal of Mathematical Sciences
