This paper investigates the limitations to the accuracy and the main issues of the spectroscopic analyses of random telegraph noise (RTN) traps in nanoscale MOSFETs. First, the impact of the major variability sources affecting decananometer MOSFET performance on both the RTN time constants and the trap depth estimation is studied as a function of the gate overdrive. Results reveal that atomistic doping and metal gate granularity broaden the statistical distribution of the RTN time constants far more than what comes from the random position of the RTN trap in the 3-D device electrostatics, contributing, in turn, to a significant reduction of the accuracy of trap spectroscopy. The accuracy is shown to improve the higher is the gate overdrive,...
In this work we present a 3D dynamic simulation analysis for the reliability evaluation of a decanan...
Low frequency (LF) noise in MOSFETs has been a topic of interest to both academia and industry in re...
In this paper, we discuss some of the measurement and analysis techniques for Random Telegraph Noise...
This paper investigates the limitations to the accuracy and the main issues of the spectroscopic ana...
Random telegraph noise (RTN) has been long debated in many theoretical and experimental studies. Its...
This paper presents a thorough statistical investigation of random telegraph noise (RTN) and bias te...
We have found a systematic way to identify the bias conditions to observe the Random-Telegraph-Noise...
It is difficult to measure the random telegraph noises (RTN) of MOSFET subthreshold currents at the ...
International audienceIn this work, we present an experimental method that allows for a proper disti...
The principles and application of Generation-Recombination (GR) noise spectroscopy will be outlined ...
International audiencea eddy.simoen@imec.be, b bogdan.cretu@ensicaen.fr, c fangwen@ime.ac.cn, d marc...
In this paper, a new pattern of anomalous random telegraph noise (RTN), named "reversal RTN&quo...
The power consumption of digital circuits is proportional to the square of operation voltage and the...
The Random Telegraph Noise (RTN) in an advanced Metal-Oxide-Semiconductor Field-Effect Transistor (M...
This paper introduces large signal excitation measurement techniques to analyze Random Telegraph Sig...
In this work we present a 3D dynamic simulation analysis for the reliability evaluation of a decanan...
Low frequency (LF) noise in MOSFETs has been a topic of interest to both academia and industry in re...
In this paper, we discuss some of the measurement and analysis techniques for Random Telegraph Noise...
This paper investigates the limitations to the accuracy and the main issues of the spectroscopic ana...
Random telegraph noise (RTN) has been long debated in many theoretical and experimental studies. Its...
This paper presents a thorough statistical investigation of random telegraph noise (RTN) and bias te...
We have found a systematic way to identify the bias conditions to observe the Random-Telegraph-Noise...
It is difficult to measure the random telegraph noises (RTN) of MOSFET subthreshold currents at the ...
International audienceIn this work, we present an experimental method that allows for a proper disti...
The principles and application of Generation-Recombination (GR) noise spectroscopy will be outlined ...
International audiencea eddy.simoen@imec.be, b bogdan.cretu@ensicaen.fr, c fangwen@ime.ac.cn, d marc...
In this paper, a new pattern of anomalous random telegraph noise (RTN), named "reversal RTN&quo...
The power consumption of digital circuits is proportional to the square of operation voltage and the...
The Random Telegraph Noise (RTN) in an advanced Metal-Oxide-Semiconductor Field-Effect Transistor (M...
This paper introduces large signal excitation measurement techniques to analyze Random Telegraph Sig...
In this work we present a 3D dynamic simulation analysis for the reliability evaluation of a decanan...
Low frequency (LF) noise in MOSFETs has been a topic of interest to both academia and industry in re...
In this paper, we discuss some of the measurement and analysis techniques for Random Telegraph Noise...