In this work Random Discrete Dopant induced on-current variations have been studied using the Glasgow 3D atomistic drift/diffusion simulator and Monte Carlo simulations. A methodology for incorporating quantum corrections into self-consistent atomistic Monte Carlo simulations via the density gradient effective potential is presented. Quantum corrections based on the density gradient formalism are used to simultaneously capture quantum confinement effects. The quantum corrections not only capture charge confinement effects, but accurately represent the electron impurity interaction used in previous \textit{ab initio} atomistic MC simulations, showing agreement with bulk mobility simulation. The effect of quantum corrected transport vari...
The scaling of conventional silicon based MOSFETs is increasingly difficult into the nanometer regim...
Abstract:- As the gate length of MOSFET devices shrinks down below 100 nm, the fluctuation of major ...
In this letter, we report a quantum transport simu- lation study of the impact of Random Discrete Do...
In this work Random Discrete Dopant induced on-current variations have been studied using the Glasg...
An efficient method to accurately capture quantum confinement effects within Monte Carlo (MC) simula...
Quantum corrections based on density gradient formalism, recently introduced in the 3-D Monte Carlo ...
This thesis is concerned with the Monte Carlo simulation of device parameter variation associated wi...
A comprehensive simulation study, of random-dopant-induced drain current variability is presented fo...
The growing variability of electrical characteristics is a major issue associated with continuous do...
A comprehensive simulation methodology for the systematic study of gate leakage variability in reali...
A comprehensive simulation methodology for the systematic study of gate leakage variability in reali...
A methodology for incorporating quantum corrections into self-consistent atomistic Monte Carlo (MC) ...
Intrinsic parameter fluctuations have become a very important problem for the scaling and integratio...
We study, using numerical simulation, the intrinsic parameter fluctuations in sub 10 nm gate length ...
We investigate the dopant model employed in drift-diffusion device simulations for the study of stat...
The scaling of conventional silicon based MOSFETs is increasingly difficult into the nanometer regim...
Abstract:- As the gate length of MOSFET devices shrinks down below 100 nm, the fluctuation of major ...
In this letter, we report a quantum transport simu- lation study of the impact of Random Discrete Do...
In this work Random Discrete Dopant induced on-current variations have been studied using the Glasg...
An efficient method to accurately capture quantum confinement effects within Monte Carlo (MC) simula...
Quantum corrections based on density gradient formalism, recently introduced in the 3-D Monte Carlo ...
This thesis is concerned with the Monte Carlo simulation of device parameter variation associated wi...
A comprehensive simulation study, of random-dopant-induced drain current variability is presented fo...
The growing variability of electrical characteristics is a major issue associated with continuous do...
A comprehensive simulation methodology for the systematic study of gate leakage variability in reali...
A comprehensive simulation methodology for the systematic study of gate leakage variability in reali...
A methodology for incorporating quantum corrections into self-consistent atomistic Monte Carlo (MC) ...
Intrinsic parameter fluctuations have become a very important problem for the scaling and integratio...
We study, using numerical simulation, the intrinsic parameter fluctuations in sub 10 nm gate length ...
We investigate the dopant model employed in drift-diffusion device simulations for the study of stat...
The scaling of conventional silicon based MOSFETs is increasingly difficult into the nanometer regim...
Abstract:- As the gate length of MOSFET devices shrinks down below 100 nm, the fluctuation of major ...
In this letter, we report a quantum transport simu- lation study of the impact of Random Discrete Do...