Open AccessTunable nanostructured composite with built-in metallic wire-grid electrode
Author(s) -
Davide Micheli,
Roberto Pastore,
Gabriele Gradoni,
M. Marchetti
Publication year - 2013
Publication title -
aip advances
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.421
H-Index - 58
ISSN - 2158-3226
DOI - 10.1063/1.4837916
Subject(s) - materials science , metamaterial , optoelectronics , carbon nanotube , microwave , electrode , dielectric , biasing , reflection (computer programming) , absorption (acoustics) , reflection coefficient , resonance (particle physics) , optics , blueshift , wavelength , voltage , composite material , electrical engineering , chemistry , physics , particle physics , quantum mechanics , computer science , photoluminescence , programming language , engineering
In this paper, the authors report an experimental demonstration of microwave reflection tuning in carbon nanostructure-based composites bymeans of an external voltage supplied to the material. DC bias voltages are imparted through a metal wire-grid.\udThe magnitude of the reflection coefficient is measured upon oblique plane-wave incidence. Increasing the bias from 13 to 700 V results in a lowering of ∼20 dB, and a “blueshift” of ∼600 MHz of the material absorption resonance. Observed phenomena\udare ascribed to a change of the dielectric response of the carbon material. Inherently, the physical role of tunneling between nanofillers (carbon nanotubes) is discussed. Achievements aim at the realization of a tunable absorber. There are similar studies in literature that focus on tunable metamaterials operating at either\udoptical or THz wavelengths
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