Add to ORKGLow frequency noise was measured in silicon MOSFET and GaN and InGaAs based HFET devices with special emphasis on the RTS noise. The RTS (Random Telegraph Signal) dependence on the biasing conditions and temperature was analyzed in order to obtain new information regarding production technology. From the time dependence of the RTS noise voltage the mean time of charge carriers capture and emission by traps in the gate oxide layer was determined as a function of applied gate and drain voltage or electron concentration and then several important trap parameters, such as activation energy and position in the channel could be estimated
Low frequency (LF) noise in MOSFETs has been a topic of interest to both academia and industry in re...
In this brief, traps-related dispersion phenomena are investigated on GaN/AlGaN MOS-high-electron mo...
The influence of random telegraph noise (RTN) in MOSFETs on drain current (Id) during the rise/fall ...
Low frequency noise was measured in silicon MOSFET and GaN and InGaAs based HFET devices with specia...
Abstract: Low frequency noise of Si n-MOSFET and GaN/AlGaN HFET devices was measured in 10 µHz to 10...
Random telegraph-signal noise (RTN) is measured in junctionless metal-oxide-silicon field-effect tra...
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 ...
The power consumption of digital circuits is proportional to the square of operation voltage and the...
We have observed discrete random telegraph signals (RTS'S) in the drain voltages of three, observed ...
Low-frequency noise in small-area MOSFETs is dominated by random telegraph signal noise associated t...
Random telegraph noise (RTN) has been long debated in many theoretical and experimental studies. Its...
Low-frequency noise in MOSFETs is considered to originate from two distinctive sources: Random Teleg...
One of the emerging challenges in the scaling of MOSFETs is the reliability of ultra-thin gate diele...
The Random Telegraph Noise (RTN) in an advanced Metal-Oxide-Semiconductor Field-Effect Transistor (M...
Low frequency (LF) noise in MOSFETs has been a topic of interest to both academia and industry in re...
In this brief, traps-related dispersion phenomena are investigated on GaN/AlGaN MOS-high-electron mo...
The influence of random telegraph noise (RTN) in MOSFETs on drain current (Id) during the rise/fall ...
Low frequency noise was measured in silicon MOSFET and GaN and InGaAs based HFET devices with specia...
Abstract: Low frequency noise of Si n-MOSFET and GaN/AlGaN HFET devices was measured in 10 µHz to 10...
Random telegraph-signal noise (RTN) is measured in junctionless metal-oxide-silicon field-effect tra...
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 ...
The power consumption of digital circuits is proportional to the square of operation voltage and the...
We have observed discrete random telegraph signals (RTS'S) in the drain voltages of three, observed ...
Low-frequency noise in small-area MOSFETs is dominated by random telegraph signal noise associated t...
Random telegraph noise (RTN) has been long debated in many theoretical and experimental studies. Its...
Low-frequency noise in MOSFETs is considered to originate from two distinctive sources: Random Teleg...
One of the emerging challenges in the scaling of MOSFETs is the reliability of ultra-thin gate diele...
The Random Telegraph Noise (RTN) in an advanced Metal-Oxide-Semiconductor Field-Effect Transistor (M...
Low frequency (LF) noise in MOSFETs has been a topic of interest to both academia and industry in re...
In this brief, traps-related dispersion phenomena are investigated on GaN/AlGaN MOS-high-electron mo...
The influence of random telegraph noise (RTN) in MOSFETs on drain current (Id) during the rise/fall ...