Title :
Modeling quantum transport in semiconductor nanostructures
Author :
Ferry, D.K. ; Akis, R. ; Bird, J.P. ; Pivin, D.P., Jr. ; Holmberg, N. ; Badrieh, F. ; Vasileska, D.
Author_Institution :
Dept. of Electr. Eng., Arizona State Univ., Tempe, AZ, USA
Abstract :
There are a variety of situations in which carriers sit in small 3D quantum boxes containing a small number of electrons per box. In a sense, this range of problems takes us from unintentional quantum dots in MOSFETs (arising from the doping fluctuations) to single-electron quantum dots in semiconductor heterostructures. In between these two extremes are the realm of open quantum dots, in which the transport can be quite regular. These dots are characterized by periodic, oscillatory fluctuations in their magnetoconductance, which replicate the partial density of states in the dot itself. In this paper, we will discuss the modeling of quantum transport through open, ballistic dots through the use of the coupled Schrodinger/Poisson equation, and stabilized mode matching techniques
Keywords :
semiconductor quantum dots; 3D quantum box; MOSFET; Poisson equation; Schrodinger equation; density of states; doping fluctuations; magnetoconductance fluctuations; mode matching; open ballistic quantum dot; quantum dot; quantum transport; semiconductor heterostructure; semiconductor nanostructure; single electron quantum dot; Birds; Charge carrier density; Electronics packaging; Electrons; Fluctuations; Impurities; Quantum dots; Quantum mechanics; Semiconductor device packaging; Semiconductor nanostructures;
Conference_Titel :
Physics and Modeling of Devices Based on Low-Dimensional Structures, 1998. Proceedings., Second International Workshop on
Conference_Location :
Aizu-Wakamatsu
Print_ISBN :
0-8186-8682-0
DOI :
10.1109/LDS.1998.714534
