Time-dependent current distributions of a two-terminal carbon nanotube-based electronic device
The Journal of Physical Chemistry B, 2011•ACS Publications
We have performed time-dependent density-functional theory calculations to simulate the
transient electrical response of a carbon nanotube-based electronic device. Time-
dependent current density and electrostatic potential distribution are calculated and
analyzed. Strong local vortices are observed for the current. In addition, the calculated
dynamic admittance confirms that the dynamic response of the two-terminal device can be
mapped onto the equivalent electric circuit reported in our previous work [Yam et al …
transient electrical response of a carbon nanotube-based electronic device. Time-
dependent current density and electrostatic potential distribution are calculated and
analyzed. Strong local vortices are observed for the current. In addition, the calculated
dynamic admittance confirms that the dynamic response of the two-terminal device can be
mapped onto the equivalent electric circuit reported in our previous work [Yam et al …
We have performed time-dependent density-functional theory calculations to simulate the transient electrical response of a carbon nanotube-based electronic device. Time-dependent current density and electrostatic potential distribution are calculated and analyzed. Strong local vortices are observed for the current. In addition, the calculated dynamic admittance confirms that the dynamic response of the two-terminal device can be mapped onto the equivalent electric circuit reported in our previous work [Yam et al. Nanotechnology 2008, 19, 495203].
ACS Publications