A 2-Dimensional (2D) FinFET simulation is presented in this study.The simulation studies are conducted based on electrical parameters such as surface potential, electric field, transfer characteristics, threshold voltage and sub threshold swing using nanohubmultiple gate field effect transistors(MUGFET) simulator. These characterization studies are performed to investigate the performance of FinFETs based on different channel width and show a better performance for lower channel width withthreshold voltage shift of 0.2 V.Further, the transfer characteristics for the device are compared with silicon dioxide and titanium oxide, as oxide material for different drain biases. Findings have shown that the device with titanium oxide as dielectric ...
This paper presents design the optimal channel dimensions for Silicon Fin Feld Effect Transistor (Si...
10.1109/SISPAD.2006.282883International Conference on Simulation of Semiconductor Processes and Devi...
The intensive downscaling of MOS transistors has been the major driving force behind the aggressive ...
A 2-Dimensional (2D) FinFET simulation is presented in this study.The simulation studies are conduct...
This study aims to design an optimal nano-dimensional channel of fin field effect transistor (FinFET...
The impact of a high-k dielectrics and the effect of downscaling on the device performance of nanosc...
This study aims to design an optimal nano-dimensional channel of fin field effect transistor (FinFET...
The high-k is needed to replace SiO2 as the gate dielectric to reduce the gate leakage current. The ...
Technology scaling below 22 nm has brought several detrimental effects such as increased short chann...
This paper presents a simple and accurate model for determining I on and Ioff of a double-gate FinFE...
This paper investigates effects from gate scaling in Tri-gate FinFET structure by simulation method,...
This paper studies the impact of fin width of channel on temperature and electrical characteristics ...
During analysis of complexities of the Metal Oxide Semiconductor Field Effect Transistors (MOSFET) t...
The conventional transistor device has been effective to provide for continual improvements in integ...
A two-dimensional quantum mechanical modeling has been performed to simulate a nano-scale FinFET by ...
This paper presents design the optimal channel dimensions for Silicon Fin Feld Effect Transistor (Si...
10.1109/SISPAD.2006.282883International Conference on Simulation of Semiconductor Processes and Devi...
The intensive downscaling of MOS transistors has been the major driving force behind the aggressive ...
A 2-Dimensional (2D) FinFET simulation is presented in this study.The simulation studies are conduct...
This study aims to design an optimal nano-dimensional channel of fin field effect transistor (FinFET...
The impact of a high-k dielectrics and the effect of downscaling on the device performance of nanosc...
This study aims to design an optimal nano-dimensional channel of fin field effect transistor (FinFET...
The high-k is needed to replace SiO2 as the gate dielectric to reduce the gate leakage current. The ...
Technology scaling below 22 nm has brought several detrimental effects such as increased short chann...
This paper presents a simple and accurate model for determining I on and Ioff of a double-gate FinFE...
This paper investigates effects from gate scaling in Tri-gate FinFET structure by simulation method,...
This paper studies the impact of fin width of channel on temperature and electrical characteristics ...
During analysis of complexities of the Metal Oxide Semiconductor Field Effect Transistors (MOSFET) t...
The conventional transistor device has been effective to provide for continual improvements in integ...
A two-dimensional quantum mechanical modeling has been performed to simulate a nano-scale FinFET by ...
This paper presents design the optimal channel dimensions for Silicon Fin Feld Effect Transistor (Si...
10.1109/SISPAD.2006.282883International Conference on Simulation of Semiconductor Processes and Devi...
The intensive downscaling of MOS transistors has been the major driving force behind the aggressive ...