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The intrasubband and intersubband relaxation of nonequilibrium electron populations in wide semiconductor quantum wells
S. C. Lee, I. Galbraith
School of Engineering & Physical Sciences
Research output
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Contribution to journal
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Article
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peer-review
3
Citations (Scopus)
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INIS
populations
100%
relaxation
100%
quantum wells
100%
semiconductor materials
100%
electrons
100%
distribution
28%
relaxation time
28%
scattering
28%
interactions
14%
screening
14%
phonons
14%
carrier density
14%
gallium arsenides
14%
population inversion
14%
thermalization
14%
random phase approximation
14%
boltzmann collision integral
14%
Physics
Relaxation Time
100%
Quantum Wells
100%
Numerical Integration
50%
Phonon
50%
Electron Distribution
50%
Electron Scattering
50%
Population Inversion
50%
Chemistry
Nonequilibrium
100%
Subband
100%
Relaxation
100%
LO Phonon
33%
Electron Configuration
33%
Electron Scattering
33%
Random Phase Approximation
33%
Material Science
Quantum Well
100%
Gallium Arsenide
50%
Carrier Concentration
50%