Random potential perturbation effect on a one dimensional parabolic quantum dot

Random potential perturbation effect on a one dimensional parabolic quantum dot

The traditional approximation of treating a doped region as a uniform charge density is inadequate in nanoscale heterostructure semiconductor quantum dots. However, it can be treated as randomly positioned ions in the doped layer which gives rise to a random potential. Because of the discreteness an...

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Bibliographische Detailangaben
Hauptverfasser: Saleh, M.B., El-Matbouly, H.M., Soliman, M.M.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Carrier confinement
Electrons
Fluctuations
Gallium arsenide
Nanoscale devices
Quantum dots
Quantum mechanics
Semiconductor devices
Semiconductor impurities
US Department of Transportation
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Zusammenfassung:The traditional approximation of treating a doped region as a uniform charge density is inadequate in nanoscale heterostructure semiconductor quantum dots. However, it can be treated as randomly positioned ions in the doped layer which gives rise to a random potential. Because of the discreteness and smallness of the ions potential in nanoscale devices, a perturbation treatment of the random potential is presented in this paper. The first and second order correction energies have been calculated for an electron confined in a one dimensional parabolic well.
DOI:10.1109/NRSC.2004.239889