HYDROSTATIC PRESSURE AND TEMPERATURE EFFECT ON THE CONFINED EXCITON BINDING ENERGY INSIDE A QUANTUM DOT
HAZEM MOHAMED ABD EL-HAMEID;
Abstract
The physical confinement of electrons and holes is a key feature of several last-generation quantum electronic and opto-electronic devices. Although the confinement is never complete, increasing the confinement improves the characteristics of these device
Other data
| Title | HYDROSTATIC PRESSURE AND TEMPERATURE EFFECT ON THE CONFINED EXCITON BINDING ENERGY INSIDE A QUANTUM DOT | Authors | HAZEM MOHAMED ABD EL-HAMEID | Keywords | HYDROSTATIC PRESSURE AND TEMPERATURE EFFECT ON THE CONFINED EXCITON BINDING ENERGY INSIDE A QUANTUM DOT | Issue Date | 2009 | Description | The physical confinement of electrons and holes is a key feature of several last-generation quantum electronic and opto-electronic devices. Although the confinement is never complete, increasing the confinement improves the characteristics of these device |
Attached Files
| File | Size | Format | |
|---|---|---|---|
| 74270r745.pdf | 114.61 kB | Adobe PDF | View/Open |
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