Title :
Microscopic modeling of nonlinear transport in ballistic nanodevices
Author :
Mateos, Javier ; Vasallo, B.G. ; Pardo, Daniel ; González, Tomás ; Galloo, Jean-Sébastien ; Bollaert, Sylvain ; Roelens, Yannick ; Cappy, Alain
Author_Institution :
Univ. de Salamanca, Spain
Abstract :
By using a semi-classical two-dimensional (2-D) Monte Carlo simulation, simple ballistic devices based on AlInAs/InGaAs channels are analyzed. Our simulations qualitatively reproduce the experimental results in T- and Y-branch junctions as well as in a ballistic rectifier appearing as a result of electron ballistic transport. We show that a quantum description of electron transport is not essential for the physical explanation of these results since phase coherence plays no significant role. On the contrary, its origin can be purely classical: the presence of classical electron transport and space charge inside the structures.
Keywords :
III-V semiconductors; Monte Carlo methods; aluminium compounds; ballistic transport; gallium arsenide; indium compounds; nanoelectronics; semiconductor device models; solid-state rectifiers; space charge; submillimetre wave devices; 2D Monte Carlo simulation; AlInAs-InGaAs; AlInAs/InGaAs channels; T-branch junctions; Y-branch junctions; ballistic nanodevices; ballistic rectifier; electron ballistic transport; microscopic modeling; nonlinear transport; space charge; terahertz devices; two-dimensional simulation; Ballistic transport; Electrons; Fabrication; HEMTs; Indium gallium arsenide; Microscopy; Nanoscale devices; Rectifiers; Submillimeter wave devices; Temperature;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2003.815858
