Device physics and material science meet at the atomic scale of novel nanostructured semiconductors, and the distinction between new device or new material is blurred. Not only the quantum-mechanical effects in the electronic states of the device but also the granular atomistic representation of the underlying material are important. Approaches based on a continuum representation of the underlying material typically used by device engineers and physicists become invalid. Ab initio methods used by material scientists typically do not represent the band gaps and masses precisely enough for device design, or they do not scale to realistically large device sizes. The plethora of geometry, material, and doping configurations in semiconductor dev...
During the past twenty years, the most important aspects of semiconductor electronics have advanced ...
The Nanoelectronic Modeling (NEMO) Toolset has been continually developed over the past 15 years to ...
Semiconductor devices are scaled down to the level which constituent materials are no longer conside...
Device physics and material science meet at the atomic scale of novel nanostructured semiconductors,...
Device physics and material science meet at the atomic scale of novel nanostructured semiconductors,...
Abstract―Device physics and material science meet at the atomic scale of novel nanostructured semico...
In Part 1, the development and deployment of a general nanoelectronic modeling tool (NEMO 3-D) has b...
The rapid progress in nanofabrication technologies has led to the development of novel devices and s...
This paper describes recent progress in large scale numerical simulations for computational nano-ele...
In the atomistic simulation of electronic structures (e.g. quantum dots, Fig. 1), it is imperative t...
Material layers with a thickness of a few nanometers are common-place in today’s semiconductor devic...
Lessons learned in 15 years of NEMO development starting from quantitative and predictive resonant t...
The rapid progress in nanofabrication technologies has led to the emergence of new classes of nanode...
Abstract: Material layers with a thickness of a few nanometers are common-place in today’s semicondu...
Abstract: Material layers with a thickness of a few nanometers are common-place in today’s semicondu...
During the past twenty years, the most important aspects of semiconductor electronics have advanced ...
The Nanoelectronic Modeling (NEMO) Toolset has been continually developed over the past 15 years to ...
Semiconductor devices are scaled down to the level which constituent materials are no longer conside...
Device physics and material science meet at the atomic scale of novel nanostructured semiconductors,...
Device physics and material science meet at the atomic scale of novel nanostructured semiconductors,...
Abstract―Device physics and material science meet at the atomic scale of novel nanostructured semico...
In Part 1, the development and deployment of a general nanoelectronic modeling tool (NEMO 3-D) has b...
The rapid progress in nanofabrication technologies has led to the development of novel devices and s...
This paper describes recent progress in large scale numerical simulations for computational nano-ele...
In the atomistic simulation of electronic structures (e.g. quantum dots, Fig. 1), it is imperative t...
Material layers with a thickness of a few nanometers are common-place in today’s semiconductor devic...
Lessons learned in 15 years of NEMO development starting from quantitative and predictive resonant t...
The rapid progress in nanofabrication technologies has led to the emergence of new classes of nanode...
Abstract: Material layers with a thickness of a few nanometers are common-place in today’s semicondu...
Abstract: Material layers with a thickness of a few nanometers are common-place in today’s semicondu...
During the past twenty years, the most important aspects of semiconductor electronics have advanced ...
The Nanoelectronic Modeling (NEMO) Toolset has been continually developed over the past 15 years to ...
Semiconductor devices are scaled down to the level which constituent materials are no longer conside...