Journal ArticleDOI
Ab initio numerical simulation of left-handed metamaterials: Comparison of calculations and experiments
Thomas Weiland,Rolf Schuhmann,R. B. Greegor,C. G. Parazzoli,A.M. Vetter,David R. Smith,D. C. Vier,Sheldon Schultz +7 more
TLDR
Using numerical simulation techniques, the transmission and reflection coefficients, or S parameters, for left-handed metamaterials are calculated in this article, using the newly developed commercially available code MICROWAVE STUDIO, which is based on the finite integration technique with the per...Abstract:
Using numerical simulation techniques, the transmission and reflection coefficients, or S parameters, for left-handed metamaterials are calculated. Metamaterials consist of a lattice of conducting, nonmagnetic elements that can be described by an effective magnetic permeability μeff and an effective electrical permittivity eeff, both of which can exhibit values not found in naturally occurring materials. Because the electromagnetic fields in conducting metamaterials can be localized to regions much smaller than the incident wavelength, it can be difficult to perform accurate numerical simulations. The metamaterials simulated here, for example, are based on arrays of split ring resonators (SRRs), which produce enhanced and highly localized electric fields within the gaps of the elements in response to applied time dependent fields. To obtain greater numerical accuracy we utilize the newly developed commercially available code MICROWAVE STUDIO, which is based on the finite integration technique with the per...read more
Citations
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Journal ArticleDOI
Comparative analysis of edge- and broadside- coupled split ring resonators for metamaterial design - theory and experiments
TL;DR: In this article, a quasi-analytical and self-consistent model was developed to compute the polarizabilities of split ring resonators (SRRs) and an experimental setup was also proposed for measuring the magnetic polarizability of these structures.
Journal ArticleDOI
Electric coupling to the magnetic resonance of split ring resonators
TL;DR: In this paper, the transmission properties of a lattice of split ring resonators for different electromagnetic (EM) field polarizations and propagation directions were investigated. And the authors found that the incident electric field E couples to the magnetic resonance of the SRR when the EM waves propagate perpendicular to SRR plane and the incident E is parallel to the gap-bearing sides of SRR. This is manifested by a dip in the transmission spectrum.
Journal ArticleDOI
Investigation of magnetic resonances for different split-ring resonator parameters and designs
Koray Aydin,Irfan Bulu,Kaan Guven,Maria Kafesaki,Costas M. Soukoulis,Costas M. Soukoulis,Ekmel Ozbay +6 more
TL;DR: In this paper, the magnetic resonance of split-ring resonators was investigated experimentally and numerically, and the dependence of the geometrical parameters on magnetic resonance frequency was studied.
Journal ArticleDOI
A Study of Using Metamaterials as Antenna Substrate to Enhance Gain
TL;DR: In this article, simulations are done on the radiation of a dipole antenna embedded in metamaterial substrates, which are composed of a periodic collection of rods, or of both rods and rings.
Journal ArticleDOI
Metamaterials in the Terahertz Regime
TL;DR: The terahertz metamaterials are artificial composites that acquire their electromagnetic properties from embedded subwavelength metallic structures and can be engineered to take on arbitrary values, including those not appearing in nature.
References
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Composite Medium with Simultaneously Negative Permeability and Permittivity
TL;DR: A composite medium, based on a periodic array of interspaced conducting nonmagnetic split ring resonators and continuous wires, that exhibits a frequency region in the microwave regime with simultaneously negative values of effective permeability and permittivity varepsilon(eff)(omega).
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Time Domain Electromagnetic Field Computation with Finite Difference Methods
TL;DR: The Finite Integration Theory (FI) as mentioned in this paper is a generalization of the Yee's algorithm to the time domain and can be applied to a wide range of problems, such as waveguide transition analysis, lossy materials and fields of moving charges.