Title :
Metamaterials for THz and optical applications
Author :
Vendik, Irina ; Mateo-Segura, Carolina ; Odit, M. ; Munina, Irina ; Kozlov, D. ; Turgaliev, Viacheslav
Author_Institution :
Radio Eng. Electron. Dept., St.-Petersburg Electrotech. Univ., St. Petersburg, Russia
Abstract :
Tunable THz metamaterials have been designed and modeled. Three different structures are under investigations: array of U-shaped planar resonators and metal-dielectric-metal patch array with voltage controlled cantilevers and dielectric resonators based structure with disturbed Mie resonance. All structures exhibit efficient control of electromagnetic response. An optical superlens based on a coupled pair of 2-D arrays of plasmonic nano-ellipsoids is presented and analyzed. The superlens is capable of restoring sub-wavelength features of an object for s- and p-polarization of light. Simulations revealed sub-wavelength resolution at a distance of nearly 1.4λeff between the source and the image plane.
Keywords :
Mie scattering; cantilevers; dielectric materials; dielectric resonators; lenses; light polarisation; light sources; nanophotonics; optical arrays; optical couplers; optical design techniques; optical images; optical metamaterials; optical resonators; optical tuning; plasmonics; terahertz metamaterials; 2D plasmonic nanoellipsoid arrays; U-shaped planar resonator array; dielectric resonators based structure; disturbed Mie resonance; electromagnetic response; image plane; light p-polarization; light s-polarization; metal-dielectric-metal patch array; optical coupling; optical source; optical superlens; subwavelength resolution; tunable terahertz metamaterial design; tunable terahertz metamaterial model; voltage controlled cantilevers; Arrays; Metamaterials; Optical imaging; Optical resonators; Optical sensors; Resonant frequency;
Conference_Titel :
Advanced Electromagnetic Materials in Microwaves and Optics (METAMATERIALS), 2013 7th International Congress on
Conference_Location :
Talence
Print_ISBN :
978-1-4799-1229-2
DOI :
10.1109/MetaMaterials.2013.6809070
