Determination of Electronic States in Low Dimensional Heterostructure and Quantum Wire Devices
An efficient variational technique is applied to solve Schrödinger’s equation in two dimensions. This model is then self-consistently used with a twodimensional Poisson’s equation solver to determine the electronic states inside low dimensional heterostructure and quantum wire devices. Finally, the advantages and limitations of the present model are discussed.
KeywordsElectronic State Quantum Wire Expansion Function Carrier Distribution Carrier Transport Property
Unable to display preview. Download preview PDF.