Add to ORKGA detailed analysis of static and dynamic characteristics of deep submicron double and single gate SOI MOSFETs is presented, based on 2D numerical simulations for high frequency analog applications. Results show that although DG MOSFET offers excellent performance with respect to short channel immunity and higher transconductance, it offers nearly two times the value of gate-to-source capacitance as compared to SG devices, thus limiting the cut-off frequency at higher gate voltages. At ultra short channel lengths and low gate overdrive voltages, DG devices show a significant improvement in cut-off frequency compared to SG devices, thus presenting DG nanotransistors as potential candidates for analog microwave applications
In the past twenty years, the channel length of metal-oxide-semiconductor field-effect transistors (...
Compact, physics-based models of subthreshold swing and threshold voltage are presented for double-g...
In this paper, we analyse for the first time the effectiveness of the quasi-double gate (QDG) method...
Summarization: Analog/RF performance of nanoscale triple gate FinFETs and planar single-gate (SG) an...
A comprehensive analysis of the static and dynamic characteristics of deep submicron double-gate (DG...
In this paper, surface potential sensitivity to channel length scaling for Fully Depleted Double Gat...
Novel devices such as Double Gate (DG), Triple Gate (TG) or FinFET, Pi-Gate (PG) and Omega-Gate SOI ...
Due to the rapid scaling of Complementary Metal-Oxide-Semiconductor (CMOS), the structure of the pla...
This thesis addresses the design and application of a state-of-the-art nano-scaled Undoped-Thinned B...
The further improvement of nanoscale electron devices requires support by numerical simulations with...
Multiple-gate devices, such as the planar double-gate (DG), triple-gate (TG), FinFET, Pi-Gate (PG), ...
Multiple-gate devices, such as the planar double-gate (DG), triple-gate (TG), FinFET, Pi-Gate (PG), ...
Multiple-gate devices, such as the planar double-gate (DG), triple-gate (TG), FinFET, Pi-Gate (PG), ...
Multiple-gate devices, such as the planar double-gate (DG), triple-gate (TG), FinFET, Pi-Gate (PG), ...
We analyze a modem-day 65nm MOSFET technology to determine its electrical characteristics and intrin...
In the past twenty years, the channel length of metal-oxide-semiconductor field-effect transistors (...
Compact, physics-based models of subthreshold swing and threshold voltage are presented for double-g...
In this paper, we analyse for the first time the effectiveness of the quasi-double gate (QDG) method...
Summarization: Analog/RF performance of nanoscale triple gate FinFETs and planar single-gate (SG) an...
A comprehensive analysis of the static and dynamic characteristics of deep submicron double-gate (DG...
In this paper, surface potential sensitivity to channel length scaling for Fully Depleted Double Gat...
Novel devices such as Double Gate (DG), Triple Gate (TG) or FinFET, Pi-Gate (PG) and Omega-Gate SOI ...
Due to the rapid scaling of Complementary Metal-Oxide-Semiconductor (CMOS), the structure of the pla...
This thesis addresses the design and application of a state-of-the-art nano-scaled Undoped-Thinned B...
The further improvement of nanoscale electron devices requires support by numerical simulations with...
Multiple-gate devices, such as the planar double-gate (DG), triple-gate (TG), FinFET, Pi-Gate (PG), ...
Multiple-gate devices, such as the planar double-gate (DG), triple-gate (TG), FinFET, Pi-Gate (PG), ...
Multiple-gate devices, such as the planar double-gate (DG), triple-gate (TG), FinFET, Pi-Gate (PG), ...
Multiple-gate devices, such as the planar double-gate (DG), triple-gate (TG), FinFET, Pi-Gate (PG), ...
We analyze a modem-day 65nm MOSFET technology to determine its electrical characteristics and intrin...
In the past twenty years, the channel length of metal-oxide-semiconductor field-effect transistors (...
Compact, physics-based models of subthreshold swing and threshold voltage are presented for double-g...
In this paper, we analyse for the first time the effectiveness of the quasi-double gate (QDG) method...