Title :
High-impedance frequency-agile THz dipole antennas using graphene
Author :
Tamagnone, Michele ; Gomez Diaz, J.S. ; Perruisseau-Carrier, Julien ; Mosig, Juan R.
Author_Institution :
LEMA/Nanolab, Ecole Polytech. Fed. de Lausanne, Lausanne, Switzerland
Abstract :
The concept and analysis of a THz frequency-reconfigurable antennas using graphene are presented. The antennas exploit dipole-like plasmonic resonances that can be frequency-tuned on large range via the electric field effect in a graphene stack. In addition to efficient dynamic control, the proposed approach allows high miniaturization and good direct matching with continuous wave THz sources. A qualitative model is used to successfully explain the excellent impedance stability under reconfiguration. These initial results are very promising for future all-graphene THz transceivers and sensors.
Keywords :
dipole antennas; electric field effects; graphene; plasmonics; submillimetre wave antennas; C; THz frequency-reconfigurable antennas; all-graphene THz sensor; all-graphene THz transceiver; continuous wave THz source matching; dipole-like plasmonic resonance; electric field effect; frequency-tuning; graphene stack; high-impedance frequency-agile THz dipole antenna; mpedance stability; qualitative model; Dipole antennas; Graphene; Impedance; Plasmons; Resonant frequency; Graphene; Plasmons; Reconfigurable antenna; Terahertz; frequency-tuning;
Conference_Titel :
Antennas and Propagation (EuCAP), 2013 7th European Conference on
Conference_Location :
Gothenburg
Print_ISBN :
978-1-4673-2187-7
Electronic_ISBN :
978-88-907018-1-8
