Add to ORKGThe paper analyzes the influence of the Si substrate on the AC characteristics of silicon-on-insulator (SOI) MOSFETs through 2D Atlas simulations and measurements. It is shown that the presence of the Si substrate underneath the buried oxide (BOX) results in two transitions in the frequency response of the output conductance, caused by the variation of the potential at substrate-BOX interface. A first-order small-signal model is proposed to support the obtained results. It is demonstrated that the appearance of “substrate-related” transitions, their position and amplitude depend strongly on the substrate doping, space-charge conditions at substrate-BOX interface, temperature and moreover become more pronounced with device downscaling
A non-quasi-static model of partially-depleted SOI MOSFETs is presented. Phenomena, which are partic...
Silicon-on-insulator (SOI) technology is an effective approach of mitigating the short channel effec...
In this work, we present physical insights into the role of substrate on the anomalous frequency beh...
The paper analyzes the influence of the Si substrate on the AC characteristics of silicon-on-insulat...
The present paper investigates the influence of the silicon substrate on the AC characteristics of f...
This paper investigates the influence of the silicon substrate. on the ac characteristics of silicon...
Frequency variation of the output conductance in advanced fully depleted SOI and multiple-gate MOSFE...
The frequency variation of the output conductance in ultra-thin body with ultra-thin BOX (UTBB) SOI ...
Silicon-on-Insulator (SOI) technology shows advantages over bulk silicon technology at high frequenc...
In this work a theoretical and experimental analysis of the substrate potential drop influence on fu...
Silicon-On-Insulator (SOI) technology, which was originally developed for military applications, is ...
The continuous reduction in the thickness of body and BOX of FDSOI MOS devices (to sustain scaling) ...
We report a frequency-dependent output conductance of partially depleted SOI MOSFET's. For high-freq...
This paper aims at presenting a detailed and comprehensive study of the influence of space-charge co...
This paper theoretically revisits the low-frequency noise behavior of the inversion-channel silicon-...
A non-quasi-static model of partially-depleted SOI MOSFETs is presented. Phenomena, which are partic...
Silicon-on-insulator (SOI) technology is an effective approach of mitigating the short channel effec...
In this work, we present physical insights into the role of substrate on the anomalous frequency beh...
The paper analyzes the influence of the Si substrate on the AC characteristics of silicon-on-insulat...
The present paper investigates the influence of the silicon substrate on the AC characteristics of f...
This paper investigates the influence of the silicon substrate. on the ac characteristics of silicon...
Frequency variation of the output conductance in advanced fully depleted SOI and multiple-gate MOSFE...
The frequency variation of the output conductance in ultra-thin body with ultra-thin BOX (UTBB) SOI ...
Silicon-on-Insulator (SOI) technology shows advantages over bulk silicon technology at high frequenc...
In this work a theoretical and experimental analysis of the substrate potential drop influence on fu...
Silicon-On-Insulator (SOI) technology, which was originally developed for military applications, is ...
The continuous reduction in the thickness of body and BOX of FDSOI MOS devices (to sustain scaling) ...
We report a frequency-dependent output conductance of partially depleted SOI MOSFET's. For high-freq...
This paper aims at presenting a detailed and comprehensive study of the influence of space-charge co...
This paper theoretically revisits the low-frequency noise behavior of the inversion-channel silicon-...
A non-quasi-static model of partially-depleted SOI MOSFETs is presented. Phenomena, which are partic...
Silicon-on-insulator (SOI) technology is an effective approach of mitigating the short channel effec...
In this work, we present physical insights into the role of substrate on the anomalous frequency beh...