Engineering & Materials Science
Phonons
100%
Semiconductor quantum wells
78%
Electrons
70%
Solar cells
69%
Silicon
63%
Heterojunctions
53%
High electron mobility transistors
43%
Scattering
42%
Simulators
39%
Relaxation
33%
Nanowires
30%
Semiconductor materials
27%
Photoexcitation
23%
Phonon scattering
21%
Temperature
21%
Energy gap
21%
Transistors
20%
Heating
20%
Diodes
20%
Degradation
19%
Hot carriers
19%
Electron scattering
18%
Electron Transport
17%
Electron-electron interactions
16%
Point contacts
16%
Ions
16%
Impact ionization
15%
Electric fields
15%
Amorphous silicon
14%
Charge transfer
14%
Doping (additives)
14%
Acoustics
13%
Diamonds
13%
Field effect transistors
13%
Polarization
12%
Hot Temperature
12%
Band structure
11%
Semiconductor devices
11%
Semiconductor quantum wires
11%
Passivation
11%
Electron-phonon interactions
11%
Cellular automata
10%
Defects
9%
Excitons
9%
Monte Carlo methods
9%
Substrates
9%
Millimeter waves
9%
Impurities
9%
Electric potential
8%
Networks (circuits)
8%
Chemical Compounds
Monte Carlo Method
47%
Simulation
46%
Phonon
34%
Solar Cell
32%
Optical Phonon
29%
Semiconductor
28%
Acoustic Phonon
23%
Statistical Ensemble
22%
Electron Particle
22%
Conductance
18%
Quantum Dot
17%
Velocity
17%
Voltage
16%
Subband
15%
Nonequilibrium
14%
Tunneling
14%
Energy
13%
Amorphous Silicon
13%
Photoexcitation
13%
Impact Ionization
12%
Compound Mobility
11%
Electron-Phonon Interaction
10%
Electron Transport
10%
Electric Field
10%
Nanowire
10%
Length
10%
Time
10%
Diamond
10%
Electron Mobility
9%
Thermionic Emission
8%
Electronic Band Structure
8%
Polarization
8%
Hot Electron
7%
Chemical Passivation
7%
LO Phonon
7%
Deformation Potential
6%
Energy Balance
6%
Distribution Function
6%
Application
5%
Band Gap
5%
Transport Property
5%
Nitride
5%
Electron-Phonon Scattering
5%
Dimension
5%
Physics & Astronomy
quantum wells
33%
phonons
32%
simulation
30%
electrons
29%
scattering
22%
simulators
20%
aluminum gallium arsenides
19%
silicon
19%
field effect transistors
18%
high electron mobility transistors
18%
quantum dots
15%
solar cells
14%
diodes
13%
transistors
12%
nanowires
12%
heterojunctions
11%
quantum wires
11%
electron scattering
11%
diamonds
10%
electric potential
10%
electronics
9%
ionization
9%
electric contacts
8%
photoexcitation
8%
characterization
7%
heating
7%
hot electrons
7%
waveguides
7%
performance
7%
Schottky diodes
7%
electron phonon interactions
7%
insulators
6%
resonant tunneling diodes
6%
electric fields
6%
wurtzite
6%
energy
6%
discontinuity
6%
impurities
6%
finite difference time domain method
6%
semiconductor devices
5%
acoustics
5%
constrictions
5%
decay
5%
millimeter waves
5%
gallium nitrides
5%
broadband
5%