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Coulomb effects between electrons in quantum box structures
R. Yang
, P. P. Ruden
, D. L. Smith
Electrical and Computer Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
1
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Scopus citations
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Engineering
Single Electron
100%
Box Structure
100%
Two Dimensional
50%
Coulomb Interaction
50%
Material Parameter
50%
Interaction Effect
50%
Gallium Arsenide
50%
Coulomb Repulsion
50%
Polarization Effect
50%
Relative Strength
50%
Ground State
50%
Oscillator
50%
Harmonics
50%
Electronic State
50%
Keyphrases
Box Structure
100%
Quantum Box
100%
Coulomb Effects
100%
Two-electron
50%
Wave Function
33%
Vertically Stacked
33%
Interaction Effect
16%
Electronic Structure
16%
Numerical Results
16%
Single Electron
16%
Configuration Interaction
16%
Coulomb Interaction
16%
Variational
16%
Relative Strength
16%
Polarization Effect
16%
Electron-electron Interaction
16%
Result-oriented
16%
Material Parameters
16%
Coulomb Repulsion
16%
Interaction Techniques
16%
Single Quantum System
16%
Trial Function
16%
GaAs Material
16%
Single-electron State
16%
Two-dimensional Harmonic Oscillator
16%
Confining Interactions
16%
Strongly Correlated Effect
16%
Multiple Quantum Wells
16%
Physics
Electron State
100%
Electron Scattering
100%
Configuration Interaction
100%
Ground State
100%
Harmonic Oscillator
100%
Material Science
Gallium Arsenide
100%
Oscillator
100%