Add to ORKGIn this paper the characteristics of small carbon nanotube (CNT) dipole antennas are investigated on the basis of the thin wire Hallén integral equation (IE). A surface impedance model for the CNT is adopted to account for the specific material properties resulting in a modified kernel function for the integral equation. A numerical solution for the IE gives the current distribution along the CNT. From the current distribution the antenna driving point impedance and the antenna efficiency are computed. The presented numerical examples demonstrate the strong dependence of the antenna characteristics on the used material and show the limitations of nanoscale antennas
Abstract—The characteristics of armchair carbon nanotube dipole antennas are investigated in the inf...
In this paper, we explore using carbon nanotube (CNT) composite material for wideband millimeter-wav...
Due to the formal analogy between Maxwell and Schrödinger equations, electromagnetic e.m. simulators...
Abstract—Fundamental properties of dipole transmitting an-tennas formed by carbon nanotubes are inve...
Abstract—Fundamental properties of carbon nanotube antenna are firstly investigated to predict the a...
We present the electromagnetic scattering theory for a finite-length nanowire with an embedded mesos...
The fundamental properties of carbon nanotube straight wire antennas were determined using theoretic...
International audienceScaling down electronics is met with more and more challenges as we get closer...
Purpose – To investigate the possible application of carbon nanotubes (CNTs) as interconnects and an...
The fundamental properties of carbon nanotube (CN) loop antennas have been determined using numerica...
INSPEC Accession Number : 12691435International audienceWe investigate the use of bundled carbon nan...
International audienceWe present a study on using carbon nanotubes (CNTs) as the radiating part of r...
The fundamental properties of carbon nanotube (CN) loop antennas have been determined using numerica...
The concept of the effective conductivity of carbon nanotube (CNT) material is introduced and used ...
Recently, excellent properties have been realised from structures formed by carbon nanotubes. This p...
Abstract—The characteristics of armchair carbon nanotube dipole antennas are investigated in the inf...
In this paper, we explore using carbon nanotube (CNT) composite material for wideband millimeter-wav...
Due to the formal analogy between Maxwell and Schrödinger equations, electromagnetic e.m. simulators...
Abstract—Fundamental properties of dipole transmitting an-tennas formed by carbon nanotubes are inve...
Abstract—Fundamental properties of carbon nanotube antenna are firstly investigated to predict the a...
We present the electromagnetic scattering theory for a finite-length nanowire with an embedded mesos...
The fundamental properties of carbon nanotube straight wire antennas were determined using theoretic...
International audienceScaling down electronics is met with more and more challenges as we get closer...
Purpose – To investigate the possible application of carbon nanotubes (CNTs) as interconnects and an...
The fundamental properties of carbon nanotube (CN) loop antennas have been determined using numerica...
INSPEC Accession Number : 12691435International audienceWe investigate the use of bundled carbon nan...
International audienceWe present a study on using carbon nanotubes (CNTs) as the radiating part of r...
The fundamental properties of carbon nanotube (CN) loop antennas have been determined using numerica...
The concept of the effective conductivity of carbon nanotube (CNT) material is introduced and used ...
Recently, excellent properties have been realised from structures formed by carbon nanotubes. This p...
Abstract—The characteristics of armchair carbon nanotube dipole antennas are investigated in the inf...
In this paper, we explore using carbon nanotube (CNT) composite material for wideband millimeter-wav...
Due to the formal analogy between Maxwell and Schrödinger equations, electromagnetic e.m. simulators...