INTERACTION OF A SINE WAVE WITH AN ARTIFICIAL NEGATIVE PERMITTIVITY MEDIUM USING NONSTANDARD FDTD

INTERACTION OF A SINE WAVE WITH AN ARTIFICIAL NEGATIVE PERMITTIVITY MEDIUM USING NONSTANDARD FDTD

This paper presents the realization of Nonstandard Finite Difference Time Domain (NS-FDTD) analysis having high accuracy and low computational cost to a negative permittivity metamaterial wire medium for the first time. A sine wave of frequency less than that of plasma frequency of the medium which...

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Veröffentlicht in:Progress in electromagnetics research. Letters 2019-01, Vol.83, p.1-5
Hauptverfasser: Jovia, Jose, Simon, Sikha K, Kizhakooden, Joe, Sebastian, Anju, Chakyar, Sreedevi P, Paul, Nees, Bindu, Cherala, Andrews, Jolly, Joseph, Vallikkavumkal P
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Electric fields
Waveforms
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Zusammenfassung:This paper presents the realization of Nonstandard Finite Difference Time Domain (NS-FDTD) analysis having high accuracy and low computational cost to a negative permittivity metamaterial wire medium for the first time. A sine wave of frequency less than that of plasma frequency of the medium which is in the shape of a slab reflector is allowed to interact after identifying the exact values of the required stability condition of the NS-FDTD. The electric field distribution around the plasma slab obtained for a particular excitation point using NS-FDTD and standard FDTD are demonstrated which show obvious advantages of this high accuracy algorithm. This novel technique may be further extended to various dispersive and metamaterial structures.
ISSN:1937-6480
1937-6480
DOI:10.2528/PIERL19021503