Add to ORKGConventional materials and device geometries have reached a limit that prevents further scaling. III-V compound materials have been proposed as a possible replacement of Silicon. Electrons moving inside these materials have a higher velocity, which allows higher currents at lower supply voltages, which reduces the dynamic power consumption. These materials, however, pose additional modelling challenges when one tries to use TCAD software to guide the design and fabrication of advanced nanoscale devices. Models for these devices are complicated and heavy from the computational point of view. Also, since these materials do not have a native dielectric like SiO2 and due to higher degeneracy, trap states located at the interface between the sem...
This book provides a comprehensive review of the state-of-the-art in the development of new and inno...
Abstract - Device scaling is directly responsible for Moore’s law and has enabled remarkable improve...
We review a few state of the art solutions and recent developments to model short channel III-V comp...
The unproved transport properties of new channel materials, such as Ge and III-V semiconductors, alo...
To continue the development and miniaturization of transistors, new materials and device concepts ar...
In this paper, we discuss the role of adequate modelling tools in the development of nanoelectronic ...
Silicon based CMOS technology has been the driven force for semiconductor industry for decades. With...
<div>The exponential rise in the density of silicon CMOS transistors has now reached a limit and thr...
Channel materials alternative to silicon have been recently introduced as a new scaling scenario to ...
The classical planar Metal Oxide Semiconductor Field Effect Transistors (MOSFET) is fabricated by ox...
To continue the development and miniaturization of transistors, new materials and device concepts ar...
MOSFET scaling, building block of integrated circuits, do not allow to improve significantly the dev...
The scaling of CMOS devices into the nanometer regime has required the introduction of new materials...
This book provides a comprehensive review of the state-of-the-art in the development of new and inno...
Simulation of conventional and emerging electronic devices using Technology Computer Aided Design (T...
This book provides a comprehensive review of the state-of-the-art in the development of new and inno...
Abstract - Device scaling is directly responsible for Moore’s law and has enabled remarkable improve...
We review a few state of the art solutions and recent developments to model short channel III-V comp...
The unproved transport properties of new channel materials, such as Ge and III-V semiconductors, alo...
To continue the development and miniaturization of transistors, new materials and device concepts ar...
In this paper, we discuss the role of adequate modelling tools in the development of nanoelectronic ...
Silicon based CMOS technology has been the driven force for semiconductor industry for decades. With...
<div>The exponential rise in the density of silicon CMOS transistors has now reached a limit and thr...
Channel materials alternative to silicon have been recently introduced as a new scaling scenario to ...
The classical planar Metal Oxide Semiconductor Field Effect Transistors (MOSFET) is fabricated by ox...
To continue the development and miniaturization of transistors, new materials and device concepts ar...
MOSFET scaling, building block of integrated circuits, do not allow to improve significantly the dev...
The scaling of CMOS devices into the nanometer regime has required the introduction of new materials...
This book provides a comprehensive review of the state-of-the-art in the development of new and inno...
Simulation of conventional and emerging electronic devices using Technology Computer Aided Design (T...
This book provides a comprehensive review of the state-of-the-art in the development of new and inno...
Abstract - Device scaling is directly responsible for Moore’s law and has enabled remarkable improve...
We review a few state of the art solutions and recent developments to model short channel III-V comp...