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
From page
45
To page
53
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
Record number
2585406
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