Add to ORKGNonquasistatic effects in ac characteristics of carbon nanotube field-effect transistors are examined by solving a full time-dependent, open-boundary Schrodinger equation. The nonquasistatic characteristics, such as the finite channel charging time, and the dependence of small signal transconductance and gate capacitance on the frequency, are explored. The validity of the widely used quasistatic approximation is examined. The results show that the quasistatic approximation overestimates the transconductance and gate capacitance at high frequencies, but gives a more accurate value for the intrinsic cutoff frequency over a wide range of bias conditions
We present a study on the scaling behavior of field-effect transistors in the quantum-capacitance li...
By developing a two-dimensional (2D) full quantum simulation, the attributes of carbon nanotube fiel...
We study carbon nanotube based field-effect transistors (CNTFETs) by means of two different approach...
Self-consistent quantum simulations are used to explore the high-frequency performance potential of ...
We use first-principles quantum mechanics to simulate the transient electrical response through carb...
Experimental projection of transport properties of semiconductor devices faces a challenge nowadays....
A general expression of the current-voltage characteristics of a ballistic nanowire field-effect tra...
The performance limits of carbon nanotube field-effect transistors (CNTFETs) are examined theoretica...
This thesis is focused on the high-frequency performance of carbon nanotube field-effect transistors...
Aggressive scaling of CMOS has led to higher and higher integration density, the higher performance ...
Carbon nanotube field-effect transistors (CNTFETs) are studied using atomistic quantum transport sim...
In this work, fundamental results on carrier statistics in a carbon nanotube treated as a one-dimens...
In this work, fundamental results on carrier statistics in a carbon nanotube treated as a one-dimens...
Carbon nanotube based field-effect transistors (CNTFETs) are studied by use of two different approac...
In this work, fundamental results on carrier statistics in a carbon nanotube treated as a one-dimens...
We present a study on the scaling behavior of field-effect transistors in the quantum-capacitance li...
By developing a two-dimensional (2D) full quantum simulation, the attributes of carbon nanotube fiel...
We study carbon nanotube based field-effect transistors (CNTFETs) by means of two different approach...
Self-consistent quantum simulations are used to explore the high-frequency performance potential of ...
We use first-principles quantum mechanics to simulate the transient electrical response through carb...
Experimental projection of transport properties of semiconductor devices faces a challenge nowadays....
A general expression of the current-voltage characteristics of a ballistic nanowire field-effect tra...
The performance limits of carbon nanotube field-effect transistors (CNTFETs) are examined theoretica...
This thesis is focused on the high-frequency performance of carbon nanotube field-effect transistors...
Aggressive scaling of CMOS has led to higher and higher integration density, the higher performance ...
Carbon nanotube field-effect transistors (CNTFETs) are studied using atomistic quantum transport sim...
In this work, fundamental results on carrier statistics in a carbon nanotube treated as a one-dimens...
In this work, fundamental results on carrier statistics in a carbon nanotube treated as a one-dimens...
Carbon nanotube based field-effect transistors (CNTFETs) are studied by use of two different approac...
In this work, fundamental results on carrier statistics in a carbon nanotube treated as a one-dimens...
We present a study on the scaling behavior of field-effect transistors in the quantum-capacitance li...
By developing a two-dimensional (2D) full quantum simulation, the attributes of carbon nanotube fiel...
We study carbon nanotube based field-effect transistors (CNTFETs) by means of two different approach...