Title :
Demonstration of a backward wave in a single split ring resonator and wire loaded finline
Author :
Decoopman, T. ; Vanbésien, O. ; Lippen, D.
Author_Institution :
Inst. d´´Electronique et de Micro-Electronique du Nord, Univ. des Sci. et Technol. de Lille, Villeneuve d´´Ascq, France
Abstract :
A finline-based left-handed transmission line is presented and analyzed. The transmission line is periodically loaded by single split ring resonators and thin wires in order to synthesize a negative permeability and permittivity propagation medium. The propagation properties are computed by means of full-wave frequency analysis of scattering parameters from which the band diagram is derived. A backward wave behavior is predicted and demonstrated unambiguously from ab-initio simulations. The phase front is observed to be in opposite direction with respect to the energy one for a finite five-unit cell X band prototype.
Keywords :
S-parameters; fin lines; magnetic permeability; metamaterials; microwave materials; periodic structures; permittivity; resonators; transmission lines; ab-initio simulations; backward wave behavior; finite five-unit cell X band prototype; finline-based left-handed transmission line; full-wave frequency analysis; left-handed materials; metamaterials; negative permeability; periodic structures; permittivity propagation medium; phase front; scattering parameters; single split ring resonator; thin wires; wire loaded finline; Computational modeling; Finline; Frequency; Optical ring resonators; Permeability; Permittivity; Predictive models; Scattering parameters; Transmission lines; Wire; 65; Backward waves; LHM; finline; left-handed materials; metamaterials; periodic structures;
Journal_Title :
Microwave and Wireless Components Letters, IEEE
DOI :
10.1109/LMWC.2004.837075
