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Materials for fast switching and logic devices
N. Peyghambarian
Optical Sciences
Materials Science and Engineering
Research output
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Contribution to journal
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peer-review
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Mathematics
Gallium Arsenide
64%
Logic
61%
Optical Properties
40%
Femtosecond Laser Pulses
28%
Electron
26%
Optical Materials
26%
Electron-phonon Interaction
24%
Optical Computing
24%
Optical Devices
22%
Quantum Well
22%
Exciton
21%
Short Pulse
20%
Guided Waves
20%
Parallel Processing
17%
Response Time
16%
High Speed
15%
Glass
15%
Semiconductors
15%
Switch
14%
Signal Processing
13%
Physics
10%
Nonlinearity
9%
Interaction
9%
Characterization
6%
Engineering & Materials Science
Logic devices
100%
Optical devices
33%
Optical properties
32%
Electron-phonon interactions
26%
Electrons
26%
Excitons
22%
Etalons
21%
Optical materials
20%
Ultrashort pulses
20%
Laser applications
20%
Semiconductor quantum wells
20%
Optical data processing
19%
Laser pulses
16%
Guided electromagnetic wave propagation
16%
Logic gates
15%
Semiconductor materials
11%
Characterization (materials science)
11%
Physics
11%
Signal processing
10%
Glass
10%
Switches
9%
Temperature
5%
Physics & Astronomy
logic
75%
aluminum gallium arsenides
29%
optical properties
20%
etalons
18%
optical materials
17%
electron phonon interactions
17%
pulses
15%
signal processing
14%
electrons
13%
switches
12%
excitons
12%
quantum wells
11%
nonlinearity
11%
high speed
11%
physics
9%
glass
8%
room temperature
8%
characterization
8%
lasers
6%
interactions
6%
Chemical Compounds
Electron-Phonon Interaction
41%
Nonlinear Optical Property
29%
Exciton
26%
Application
24%
Wave
24%
Semiconductor
19%
Optical Property
18%
Time
18%
Glass
17%
Ambient Reaction Temperature
14%