In this paper we review the evolution of Microelectronics and its transformation into Nanoelectronics, following the predictions of Moore's law, and some of the issues related with this evolution. Next, we discuss the requirements of device modeling and the solutions proposed throughout the years to address the physical effects related with an extreme device miniaturization, such as hot-electron effects, band splitting into multiple sub-bands, quasi-ballistic transport and electron tunneling. The most important physical models are shortly highlighted, and a few simulation results of heterojunction TFETs are reported and discussed
This thesis discusses device physics, modeling and design issues of nanoscale transistors at the qua...
In this paper, we review and contrast some computational methodologies to investigate charge transpo...
ii As the dimensions of commonly used semiconductor devices have shrunk into nanometer regime, it is...
In this paper we review the evolution of Microelectronics and its transformation into Nanoelectronic...
In this presentation we shortly discuss the evolution of Microelectronics into Nanoelectronics, acco...
Nanotechnology is the field of applied science and technology that aims to manipulate, test and prod...
This thesis presents a rigorous yet practical approach to model quantum transport in nanoscale elect...
Progress in combining bandstructure calculation and solid-state device simulation is reviewed. Even ...
The unproved transport properties of new channel materials, such as Ge and III-V semiconductors, alo...
Fundamentals of Nanoscaled Field Effect Transistors gives comprehensive coverage of the fundamental ...
In this paper, we discuss the role of adequate modelling tools in the development of nanoelectronic ...
Fifty years ago, when the Università Politecnica delle Marche (UnivPM) was founded, the minimum size...
In this paper, we review and contrast some computational methodologies to investigate charge transpo...
This project is primarily concerned with the incorporation of quantum effects into physical models f...
The formidable progress in microelectronics in the last decade has pushed the channel length of MOSF...
This thesis discusses device physics, modeling and design issues of nanoscale transistors at the qua...
In this paper, we review and contrast some computational methodologies to investigate charge transpo...
ii As the dimensions of commonly used semiconductor devices have shrunk into nanometer regime, it is...
In this paper we review the evolution of Microelectronics and its transformation into Nanoelectronic...
In this presentation we shortly discuss the evolution of Microelectronics into Nanoelectronics, acco...
Nanotechnology is the field of applied science and technology that aims to manipulate, test and prod...
This thesis presents a rigorous yet practical approach to model quantum transport in nanoscale elect...
Progress in combining bandstructure calculation and solid-state device simulation is reviewed. Even ...
The unproved transport properties of new channel materials, such as Ge and III-V semiconductors, alo...
Fundamentals of Nanoscaled Field Effect Transistors gives comprehensive coverage of the fundamental ...
In this paper, we discuss the role of adequate modelling tools in the development of nanoelectronic ...
Fifty years ago, when the Università Politecnica delle Marche (UnivPM) was founded, the minimum size...
In this paper, we review and contrast some computational methodologies to investigate charge transpo...
This project is primarily concerned with the incorporation of quantum effects into physical models f...
The formidable progress in microelectronics in the last decade has pushed the channel length of MOSF...
This thesis discusses device physics, modeling and design issues of nanoscale transistors at the qua...
In this paper, we review and contrast some computational methodologies to investigate charge transpo...
ii As the dimensions of commonly used semiconductor devices have shrunk into nanometer regime, it is...