Add to ORKGThe Single and Dual Strained SiGe layer for Vertical Strained Silicon Germanium (SiGe) Impact Ionization MOSFET (VESIMOS) have been successfully analyzed in this paper. It is found that the drain current for single (SC) and dual channel (DC) VESIMOS were increased sharply initially due to the presence of Germanium. Germanium has high impact ionization rates to ensure that the transition from OFF state to ON state is abrupt. However, breakdown voltage of the SC device was decreased from B.=2.9V to 2.5V by increasing the composition of Ge from 10% to 30%. The same characteristics were found for DC VESIMOS where Bv= 2V had decreased to 1.6V by varying the Ge composition. In short, the breakdown voltage which affected by the appearance of the s...
As the silicon CMOS technology move into the sub-20nm regime, manufacturing limits and fundamental c...
10.1109/ESSDERC.2007.4430936ESSDERC 2007 - Proceedings of the 37th European Solid-State Device Resea...
Silicon Germanium (Si1-xGex) is an alloy semiconductor that has caught considerable attention of the...
The Single and Dual Strained SiGe layer for Vertical Strained Silicon Germanium (SiGe) Impact Ioniza...
The Vertical Strained Silicon Germanium (SiGe) Impact Ionization MOSFET (VESIMOS) has been successfu...
Miniaturization of semiconductor devices beyond sub-l00nm has commenced several problems for further...
The Vertical Strained Silicon Germanium (SiGe) Impact Ionization MOSFET with Dielectric Pocket (VESI...
Miniaturization of semiconductor devices beyond sub-lO0nm has commenced several problems for further...
This paper reports the effects of source and drain doping concentration on the device characteristic...
Two trench-gated power MOSFETs using strained SiGe channel are proposed to further reduce specific o...
Strain engineering such as tensile-strained silicon on silicon germanium is widely used in complemen...
Abstract—In this paper, an analytical threshold voltage model is developed for a short-channel doubl...
This paper gives an overview about uniqueness characteristics of Vertical Strained Impact Ionization...
This paper venture into prospective ideas of finding viable solution of nanoelectronics device desig...
Fast switching with an enhanced reliability device structure of Vertical Strained Impact Ionization ...
As the silicon CMOS technology move into the sub-20nm regime, manufacturing limits and fundamental c...
10.1109/ESSDERC.2007.4430936ESSDERC 2007 - Proceedings of the 37th European Solid-State Device Resea...
Silicon Germanium (Si1-xGex) is an alloy semiconductor that has caught considerable attention of the...
The Single and Dual Strained SiGe layer for Vertical Strained Silicon Germanium (SiGe) Impact Ioniza...
The Vertical Strained Silicon Germanium (SiGe) Impact Ionization MOSFET (VESIMOS) has been successfu...
Miniaturization of semiconductor devices beyond sub-l00nm has commenced several problems for further...
The Vertical Strained Silicon Germanium (SiGe) Impact Ionization MOSFET with Dielectric Pocket (VESI...
Miniaturization of semiconductor devices beyond sub-lO0nm has commenced several problems for further...
This paper reports the effects of source and drain doping concentration on the device characteristic...
Two trench-gated power MOSFETs using strained SiGe channel are proposed to further reduce specific o...
Strain engineering such as tensile-strained silicon on silicon germanium is widely used in complemen...
Abstract—In this paper, an analytical threshold voltage model is developed for a short-channel doubl...
This paper gives an overview about uniqueness characteristics of Vertical Strained Impact Ionization...
This paper venture into prospective ideas of finding viable solution of nanoelectronics device desig...
Fast switching with an enhanced reliability device structure of Vertical Strained Impact Ionization ...
As the silicon CMOS technology move into the sub-20nm regime, manufacturing limits and fundamental c...
10.1109/ESSDERC.2007.4430936ESSDERC 2007 - Proceedings of the 37th European Solid-State Device Resea...
Silicon Germanium (Si1-xGex) is an alloy semiconductor that has caught considerable attention of the...