Related references
Note: Only part of the references are listed.Signal Propagation in Carbon Nanotubes of Arbitrary Chirality
Giovanni Miano et al.
IEEE TRANSACTIONS ON NANOTECHNOLOGY (2011)
Drift-Diffusion: A Model for Teaching Spatial-Dispersion Concepts and the Importance of Screening in Nanoscale Structures
G. W. Hanson
IEEE ANTENNAS AND PROPAGATION MAGAZINE (2010)
Boundary Immittance Operators for the Schrodinger-Maxwell Problem of Carrier Dynamics in Nanodevices
Luca Pierantoni et al.
IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES (2009)
Radiation efficiency of nano-radius dipole antennas in the microwave and far-infrared regimes
G. W. Hanson
IEEE ANTENNAS AND PROPAGATION MAGAZINE (2008)
A transmission line model for metallic carbon nanotube interconnects
A. Maffucci et al.
INTERNATIONAL JOURNAL OF CIRCUIT THEORY AND APPLICATIONS (2008)
Optical absorption of carbon nanotube diodes: Strength of the electronic transitions and sensitivity to the electric field polarization
Davide Mencarelli et al.
JOURNAL OF APPLIED PHYSICS (2008)
Evaluating the impact of resistance in carbon nanotube bundles for VLSI interconnect using diameter-dependent modeling techniques
Arthur Nieuwoudt et al.
IEEE TRANSACTIONS ON ELECTRON DEVICES (2006)
An integral formulation for the electrodynamics of metallic carbon nanotubes based on a fluid model
Giovanni Miano et al.
IEEE TRANSACTIONS ON ANTENNAS AND PROPAGATION (2006)
Measurement of the quantum capacitance of interacting electrons in carbon nanotubes
S. Ilani et al.
NATURE PHYSICS (2006)
Compact physical models for multiwall carbon-nanotube interconnects
Azad Naeemi et al.
IEEE ELECTRON DEVICE LETTERS (2006)
Multichannel ballistic transport in multiwall carbon nanotubes
HJ Li et al.
PHYSICAL REVIEW LETTERS (2005)
Transport effects on signal propagation in quantum wires
S Salahuddin et al.
IEEE TRANSACTIONS ON ELECTRON DEVICES (2005)
Microwave transport in metallic single-walled carbon nanotubes
Z Yu et al.
NANO LETTERS (2005)
Impact of electron-phonon scattering on the performance of carbon nanotube interconnects for GSI
A Naeemi et al.
IEEE ELECTRON DEVICE LETTERS (2005)
Negative quantum capacitance of gated carbon nanotubes
L Latessa et al.
PHYSICAL REVIEW B (2005)
Performance comparison between carbon nanotube and copper interconnects for gigascale integration (GSI)
A Naeemi et al.
IEEE ELECTRON DEVICE LETTERS (2005)
Comprehensive study of the resistivity of copper wires with lateral dimensions of 100 nm and smaller -: art. no. 023706
W Steinhögl et al.
JOURNAL OF APPLIED PHYSICS (2005)
Electrical properties of 0.4 cm long single-walled carbon nanotubes
SD Li et al.
NANO LETTERS (2004)
An RF circuit model for carbon nanotubes
PJ Burke
IEEE TRANSACTIONS ON NANOTECHNOLOGY (2003)
Share Paper
