abstract: In very small electronic devices the alternate capture and emission of carriers at an individual defect site located at the interface of Si:SiO2 of a MOSFET generates discrete switching in the device conductance referred to as a random telegraph signal (RTS) or random telegraph noise (RTN). In this research work, the integration of random defects positioned across the channel at the Si:SiO2 interface from source end to the drain end in the presence of different random dopant distributions are used to conduct Ensemble Monte-Carlo ( EMC ) based numerical simulation of key device performance metrics for 45 nm gate length MOSFET device. The two main performance parameters that affect RTS based reliability measurements are percentage c...
Random telegraph noise (RTN) has been long debated in many theoretical and experimental studies. Its...
This thesis describes a comprehensive, simulation based scaling study – including device design, per...
Gate leakage variability in nano-scale CMOS devices is investigated through advanced modelling and s...
The growing variability of electrical characteristics is a major issue associated with continuous do...
The growing variability of electrical characteristics is a major issue associated with continuous do...
A three-dimensional (3-D) 'atomistic' simulation study of random dopant induced threshold voltage lo...
Charge trapping at the channel interface is a fundamental issue that adversely affects the reliabili...
As devices are scaled to gate lengths of sub 100 nm the effects of intrinsic parameter fluctuations ...
As devices are scaled to gate lengths of sub 100 nm the effects of intrinsic parameter fluctuations ...
A three-dimensional (3-D) 'atomistic' simulation study of random dopant induced threshold voltage lo...
Intrinsic parameter fluctuations have become a serious obstacle to the continued scaling of MOSFET d...
We report a thorough 3-D simulation study of the correlation between multiple, trapped charges in th...
Gate leakage variability in nano-scale CMOS devices is investigated through advanced modelling and s...
Intrinsic parameter fluctuations have become a very important problem for the scaling and integratio...
Gate leakage variability in nano-scale CMOS devices is investigated through advanced modelling and s...
Random telegraph noise (RTN) has been long debated in many theoretical and experimental studies. Its...
This thesis describes a comprehensive, simulation based scaling study – including device design, per...
Gate leakage variability in nano-scale CMOS devices is investigated through advanced modelling and s...
The growing variability of electrical characteristics is a major issue associated with continuous do...
The growing variability of electrical characteristics is a major issue associated with continuous do...
A three-dimensional (3-D) 'atomistic' simulation study of random dopant induced threshold voltage lo...
Charge trapping at the channel interface is a fundamental issue that adversely affects the reliabili...
As devices are scaled to gate lengths of sub 100 nm the effects of intrinsic parameter fluctuations ...
As devices are scaled to gate lengths of sub 100 nm the effects of intrinsic parameter fluctuations ...
A three-dimensional (3-D) 'atomistic' simulation study of random dopant induced threshold voltage lo...
Intrinsic parameter fluctuations have become a serious obstacle to the continued scaling of MOSFET d...
We report a thorough 3-D simulation study of the correlation between multiple, trapped charges in th...
Gate leakage variability in nano-scale CMOS devices is investigated through advanced modelling and s...
Intrinsic parameter fluctuations have become a very important problem for the scaling and integratio...
Gate leakage variability in nano-scale CMOS devices is investigated through advanced modelling and s...
Random telegraph noise (RTN) has been long debated in many theoretical and experimental studies. Its...
This thesis describes a comprehensive, simulation based scaling study – including device design, per...
Gate leakage variability in nano-scale CMOS devices is investigated through advanced modelling and s...
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