Experimental study of the hybridizing effect of different left-handed metamaterials

We investigate numerically the transmission properties of 1D and 2D composite metamaterials (CMM) consisting of periodically arrangements of circular split-ring resonators (SRR) and wires. The theoretical methods used are the commercially available code Microwave Studio for transmission calculations

## Abstract We investigated numerically and experimentally the left‐handed (LH) properties of the metamaterial based on square split‐ring resonator (SRR) pairs. The square SRR pairs metamaterial simultaneously show an electric and magnetic response to incident electromagnetic wave, and exhibit broa

## Abstract We report the effective complex permittivity and permeability of 1D planar left‐handed transmission‐line metamaterials. These metamaterials are formed on coplanar waveguide (CPW) with simultaneous load of series‐capacitive and shunt‐inductive elements in periodic intervals. By employing

We investigated the effects of dielectric-spacer thickness on the left-handed behavior of a symmetric fishnet-like metamaterial working at microwave frequency. The left-handed behavior was demonstrated and characterized by the standard retrieval procedure. The thickness of spacer was varied in order

Quasi-one-dimensional comb-like photonic crystals with backbone waveguide made of left-handed material are physically fabricated by using transmission lines. The transmission properties are experimentally investigated and it is found that the structures possess a special band gap. The gap does not o