The use of bulk states to accelerate the band edge state calculation of a semiconductor quantum dot (Q882092)
From MaRDI portal
 | This is the item page for this Wikibase entity, intended for internal use and editing purposes. Please use this page instead for the normal view: The use of bulk states to accelerate the band edge state calculation of a semiconductor quantum dot |
scientific article; zbMATH DE number 5156476
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | The use of bulk states to accelerate the band edge state calculation of a semiconductor quantum dot |
scientific article; zbMATH DE number 5156476 |
Statements
The use of bulk states to accelerate the band edge state calculation of a semiconductor quantum dot (English)
0 references
23 May 2007
0 references
Single particle states for electrons in zero dimensional confined semiconductors (quantum dots) are calculated. The focus is on a efficient computational method starting from three dimensional states of the bulk structure. A related eigenvalue problem is constructed and solved using a conjugate gradient method. Explicit algorithms are included and the CdSe semiconductor system is used as a specific example.
0 references
quantum confinement
0 references
electronic structure of quantum dots
0 references
0 references
