FDTD modelling of lorentzian DNG meta-materials with the z-transform

Mohammed M.Bait Suwailam; Zhizhang Chen

FDTD modelling of lorentzian DNG meta-materials with the z-transform

Mohammed M.Bait Suwailam^*, Zhizhang Chen

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

3 Citations (Scopus)

Abstract

In this paper, the FDTD method is applied to simulate metamaterials of double negative permittivity and permeability. The z-transform is used to incorporate the metamaterial constitutive relationship into the FDTD algorithms. Causality of the wave propagation as well as energy enhancement in DNG medium are then numerically demonstrated, which agree with the theory. The results show that the FDTD method with the z-transform incorporated is well suitable for modeling the double negative (DNG) materials.

Original language	English
Title of host publication	ICCEA 2004 - 2004 3rd International Conference on Computational Electromagnetics and its Applications, Proceedings
Editors	G. Benqing, X. Xiaowen
Pages	40-43
Number of pages	4
Publication status	Published - 2004
Externally published	Yes
Event	ICCEA 2004 - 2004 3rd International Conference on Computational Electromagnetics and its Applications - Beijing, China Duration: Nov 1 2004 → Nov 4 2004

Publication series

Name	ICCEA 2004 - 2004 3rd International Conference on Computational Electromagnetics and its Applications, Proceedings

Other

Other	ICCEA 2004 - 2004 3rd International Conference on Computational Electromagnetics and its Applications
Country/Territory	China
City	Beijing
Period	11/1/04 → 11/4/04

Keywords

And z-transform
DNG meta-material
FDTD method

ASJC Scopus subject areas

General Engineering

Cite this

Suwailam, M. M. B., & Chen, Z. (2004). FDTD modelling of lorentzian DNG meta-materials with the z-transform. In G. Benqing, & X. Xiaowen (Eds.), ICCEA 2004 - 2004 3rd International Conference on Computational Electromagnetics and its Applications, Proceedings (pp. 40-43). (ICCEA 2004 - 2004 3rd International Conference on Computational Electromagnetics and its Applications, Proceedings).

FDTD modelling of lorentzian DNG meta-materials with the z-transform. / Suwailam, Mohammed M.Bait; Chen, Zhizhang.
ICCEA 2004 - 2004 3rd International Conference on Computational Electromagnetics and its Applications, Proceedings. ed. / G. Benqing; X. Xiaowen. 2004. p. 40-43 (ICCEA 2004 - 2004 3rd International Conference on Computational Electromagnetics and its Applications, Proceedings).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Suwailam, MMB & Chen, Z 2004, FDTD modelling of lorentzian DNG meta-materials with the z-transform. in G Benqing & X Xiaowen (eds), ICCEA 2004 - 2004 3rd International Conference on Computational Electromagnetics and its Applications, Proceedings. ICCEA 2004 - 2004 3rd International Conference on Computational Electromagnetics and its Applications, Proceedings, pp. 40-43, ICCEA 2004 - 2004 3rd International Conference on Computational Electromagnetics and its Applications, Beijing, China, 11/1/04.

Suwailam MMB, Chen Z. FDTD modelling of lorentzian DNG meta-materials with the z-transform. In Benqing G, Xiaowen X, editors, ICCEA 2004 - 2004 3rd International Conference on Computational Electromagnetics and its Applications, Proceedings. 2004. p. 40-43. (ICCEA 2004 - 2004 3rd International Conference on Computational Electromagnetics and its Applications, Proceedings).

Suwailam, Mohammed M.Bait ; Chen, Zhizhang. / FDTD modelling of lorentzian DNG meta-materials with the z-transform. ICCEA 2004 - 2004 3rd International Conference on Computational Electromagnetics and its Applications, Proceedings. editor / G. Benqing ; X. Xiaowen. 2004. pp. 40-43 (ICCEA 2004 - 2004 3rd International Conference on Computational Electromagnetics and its Applications, Proceedings).

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AB - In this paper, the FDTD method is applied to simulate metamaterials of double negative permittivity and permeability. The z-transform is used to incorporate the metamaterial constitutive relationship into the FDTD algorithms. Causality of the wave propagation as well as energy enhancement in DNG medium are then numerically demonstrated, which agree with the theory. The results show that the FDTD method with the z-transform incorporated is well suitable for modeling the double negative (DNG) materials.

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FDTD modelling of lorentzian DNG meta-materials with the z-transform

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ASJC Scopus subject areas

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