2023
DOI: 10.1007/s11082-023-05036-9
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Frequency reconfigurable antipodal Vivaldi 2-port antenna based on graphene for terahertz communications

Abstract: A graphene-based two ports antipodal Vivaldi antenna with improved gain for THz applications is introduced. The single antenna is composed of an antipodal Vivaldi antenna with a graphene radiator on the top and copper ground plane on the back with a total size equal to 108 µm × 84 µm to achieve reconfigurable performance from 3 to 4.5 THz. The reconfigurability is validated by changing the external DC Volt which in turn changes the graphene chemical potential and then changes the operating frequency. As well, … Show more

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Cited by 3 publications
(1 citation statement)
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“…Furthermore, with the use of graphene-based components, terahertz dipole antennas with compound reconfigurability have been created, providing control over radiation pattern, frequency, and polarization state [38]. Additionally, a reconfigurable graphene antipodal Vivaldi antenna with increased gain has been shown [39]. This antenna employs frequency selective surfaces in addition to reconfigurability by modification of the graphene chemical potential.…”
Section: 3 Reconfigurable and Smart Antennasmentioning
confidence: 99%
“…Furthermore, with the use of graphene-based components, terahertz dipole antennas with compound reconfigurability have been created, providing control over radiation pattern, frequency, and polarization state [38]. Additionally, a reconfigurable graphene antipodal Vivaldi antenna with increased gain has been shown [39]. This antenna employs frequency selective surfaces in addition to reconfigurability by modification of the graphene chemical potential.…”
Section: 3 Reconfigurable and Smart Antennasmentioning
confidence: 99%