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Materials for fast switching and logic devices
N. Peyghambarian
Optical Sciences, College of
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Mathematics
Gallium Arsenide
Logic
Optical Properties
Femtosecond Laser Pulses
Electron
Optical Materials
Electron-phonon Interaction
Optical Computing
Optical Devices
Quantum Well
Exciton
Short Pulse
Guided Waves
Parallel Processing
Response Time
High Speed
Glass
Semiconductors
Switch
Signal Processing
Physics
Nonlinearity
Interaction
Characterization
Chemical Compounds
Logic devices
gallium arsenide
Optical devices
Optical properties
Electron-phonon interactions
Excitons
Etalons
Optical materials
Ultrashort pulses
Electrons
Laser applications
Semiconductor quantum wells
Optical data processing
Laser pulses
Guided electromagnetic wave propagation
Logic gates
Semiconductor materials
Characterization (materials science)
Physics
Signal processing
Glass
Switches
Temperature
Engineering & Materials Science
Logic devices
Optical devices
Optical properties
Electron-phonon interactions
Electrons
Excitons
Etalons
Optical materials
Ultrashort pulses
Laser applications
Semiconductor quantum wells
Optical data processing
Laser pulses
Guided electromagnetic wave propagation
Logic gates
Semiconductor materials
Characterization (materials science)
Physics
Signal processing
Glass
Switches
Temperature
Physics & Astronomy
logic
aluminum gallium arsenides
optical properties
etalons
optical materials
electron phonon interactions
pulses
signal processing
electrons
switches
excitons
quantum wells
nonlinearity
high speed
physics
glass
characterization
room temperature
lasers
interactions