Engineering & Materials Science
Semiconductor quantum wells
87%
Electrons
67%
Microwaves
51%
Magnetic fields
48%
Cyclotron resonance
44%
Galvanomagnetic effects
32%
Magnetoresistance
24%
Electron-electron interactions
23%
Heterojunctions
18%
Temperature
17%
Anisotropy
15%
Cyclotrons
14%
Electron gas
13%
Carrier concentration
13%
Scattering
12%
Electron cyclotron resonance
11%
Multiphoton processes
9%
Electric fields
7%
Radiation
7%
Molecular beam epitaxy
6%
Magnetic semiconductors
6%
Microwave measurement
6%
Impurities
6%
Spectroscopy
6%
Exchange interactions
5%
Crystals
5%
Electron transitions
5%
Inelastic scattering
5%
Photoconductivity
5%
Exchange coupling
5%
Quantum confinement
5%
Physics & Astronomy
oscillations
67%
microwaves
58%
electron gas
53%
quantum wells
52%
electrons
39%
cyclotron resonance
36%
magnetic fields
32%
aluminum gallium arsenides
29%
electrical resistivity
16%
electric fields
13%
phonons
12%
scattering
11%
decay
10%
electron scattering
10%
photoconductivity
9%
range (extremes)
9%
Hall resistance
9%
anisotropy
8%
life (durability)
7%
electron mobility
7%
harmonics
7%
temperature dependence
7%
acoustics
7%
electron cyclotron resonance
6%
temperature
6%
superlattices
6%
retraining
6%
plateaus
6%
broken symmetry
6%
magnetoresistivity
5%
Chemical Compounds
Two-Dimensional Electron Gas
85%
Landau Level
53%
Magnetic Field
52%
Resistance
42%
Cyclotron Resonance
40%
Photoconductivity
34%
Electron Particle
30%
Microwave
25%
Effective Mass
17%
Magnetoresistance
16%
Compound Mobility
15%
Hole Gas
14%
Anisotropy
14%
Magnetoplasmon
14%
Negative Magnetoresistance
13%
Electron Cyclotron Resonance
9%
Electric Field
9%
Electron Gas
8%
Nonequilibrium
7%
Spin Splitting
7%
Phonon
6%
Molecular Beam Epitaxy
5%
Free Electron
5%
Density of State
5%