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Radiation emission by ballistic electrons in semiconducting superlattices
Mordechai Botton
*
, Amiram Ron
*
Corresponding author for this work
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Keyphrases
Superlattices
100%
Superlattice
100%
Ballistic Electrons
100%
Radiation Emission
100%
Spontaneous Emission
66%
Preferred Direction
66%
Emittance
66%
Initial Energy
33%
Rate Equations
33%
Stimulated Emission
33%
Mean Free Path
33%
Cell Length
33%
Two-mode
33%
Electronic Transitions
33%
Operation Mode
33%
Traveling Wave Amplifier
33%
Threshold Current
33%
Linear Gain
33%
Energy Characteristics
33%
Positive Gain
33%
Electron Structure
33%
Gain Yield
33%
Traveling-wave Oscillator
33%
Miniband
33%
Engineering
Superlattice
100%
Preferred Direction
33%
Spontaneous Emission
33%
Initial Energy
16%
Rate Equation
16%
Energy Engineering
16%
Amplifier
16%
Mean Free Path
16%
Stimulated Emission
16%
Current Threshold
16%
Minibands
16%
Energy Levels
16%
Oscillator
16%
Traveling Wave
16%
Lattice Parameter
16%
Physics
Superlattice
100%
Spontaneous Emission
33%
Emittance
33%
Stimulated Emission
16%
Energy Levels
16%
Traveling Wave
16%
Mean Free Path
16%
Lattice Parameter
16%
Material Science
Superlattice
100%
Density
16%
Energy Levels
16%