Title :
Resonant and leaky-wave reconfigurable antennas based on graphene plasmonics
Author :
Perruisseau-Carrier, Julien ; Tamagnone, Michele ; Gomez-Diaz, Juan Sebastian ; Esquius-Morote, M. ; Mosig, Juan R.
Author_Institution :
LEMA/Nanolab, Ecole Polytech. Fed. de Lausanne, Lausanne, Switzerland
Abstract :
Resonant and leaky-wave THz reconfigurable antennas based on the propagation of transverse magnetic surface plasmons on graphene sheets are proposed. Reconfiguration is achieved via electric field gating, which allows the dynamical control of graphene complex conductivity. The first presented antenna is a miniaturized frequency-tunable resonant dipole with almost constant input impedance upon reconfiguration. The second design consists of a sinusoidally-modulated leaky wave antenna which provides beam scanning capabilities at a fixed operation frequency. The performance of the antennas, in terms of reconfigurability, return loss and radiation efficiency, is promising for the development of fully-integrated graphene transceivers at THz.
Keywords :
graphene; leaky wave antennas; plasmonics; radio transceivers; submillimetre wave antennas; submillimetre wave propagation; surface plasmons; C; THz reconfigurable antennas; dynamical control; electric field gating; frequency-tunable resonant dipole; fully-integrated graphene transceivers; graphene plasmonics; graphene sheets; leaky-wave reconfigurable antennas; propagation; resonant reconfigurable antennas; transverse magnetic surface plasmons; Dipole antennas; Graphene; Impedance; Plasmons; Surface impedance;
Conference_Titel :
Antennas and Propagation Society International Symposium (APSURSI), 2013 IEEE
Conference_Location :
Orlando, FL
Print_ISBN :
978-1-4673-5315-1
DOI :
10.1109/APS.2013.6710729
