Simulation of the carbon nanotubes in the terahertz frequencies
Since little is known isolate a sheet of carbon-graphite one atom thick. This crystal is two-dimensional graphene has remarkable electronic transport properties, which are neither those of a metal nor those of a semiconductor.In this paper we have developed a novel structure electromagnetic bandgap (EBG), with a periodic arrays of carbon nanotubes presented,by introducing a multiwalled carbon nanotubes like a metallic viaholes. The electromagnetic bandgap (EBG) surface, also referred to as a photonic bandgap (PBG) surface, has attracted extensive studies, In the optical domain , microwave and millimeter-waveareas[1].The method used is an integral method based on the concept of waves (WCIP).
Document joint
Auteur(s)
Dridi Ch.
Zaabat M.
Articles de cet auteur
- Fabrication, structural and optical characterization of In doped ZnO thin films prepared by the colloidal method
- Morphological and optical properties of sol-gel derived Ni doped ZnO thin film
- The study of the miniaturisation effect on the characteristics of patch antenna using the WCIP method
- A comprehensive nonlinear model for GaAs MESFET transistor
- Influence of the edge effects on the MESFET transistor characteristics
- [...]
fr
Science et Technologie
Journal of New technology and Materials
Volume 04
Numéro 02
?
