Engineering & Materials Science
Atomic clocks
6%
Ballistics
5%
Binding energy
5%
Carrier concentration
19%
Color centers
13%
Conduction bands
12%
Crystals
6%
Defects
6%
Diamonds
10%
Electroluminescence
19%
Electron spin resonance spectroscopy
5%
Electron transitions
11%
Electron Transport
6%
Electrons
100%
Energy gap
5%
Epitaxial films
5%
Exchange coupling
5%
Exchange interactions
5%
Excited states
6%
Excitons
32%
Experiments
6%
Fermi level
5%
Galvanomagnetic effects
5%
Helium
7%
Heterojunctions
21%
Hot carriers
9%
Hot electrons
11%
Impurities
8%
Infrared detectors
7%
Infrared radiation
17%
Interface states
12%
Ion implantation
6%
Lasers
6%
Lattice constants
6%
Linewidth
17%
Luminescence
32%
Magnetic fields
15%
Magnetoresistance
10%
Metals
7%
Microwaves
6%
Molecular beam epitaxy
7%
Molecular beams
5%
Nuclear magnetic resonance
5%
Paramagnetic resonance
31%
Phonons
19%
Phosphorus
10%
Photoemission
5%
Photoluminescence
32%
Quantum communication
10%
Quantum computers
9%
Qubits
43%
Relaxation
18%
Relaxation time
8%
Scattering
11%
Semiconductor materials
13%
Semiconductor quantum wells
43%
Silicides
5%
Silicon
56%
Single crystals
8%
Spectroscopy
8%
Spin polarization
12%
Stark effect
6%
Substrates
8%
Superlattices
5%
Surface plasmons
10%
Temperature
13%
Two dimensional electron gas
14%
Vacancies
8%
Wave functions
6%
Wavelength
9%
Physics & Astronomy
aluminum gallium arsenides
16%
antimony
7%
atomic clocks
5%
ballistics
13%
charge coupled devices
5%
charge transfer
5%
conduction bands
9%
conduction electrons
5%
decay
5%
decoupling
5%
defects
8%
detectors
7%
diamonds
5%
echoes
5%
electric fields
8%
electric potential
7%
electroluminescence
17%
electron energy
6%
electron gas
14%
electron paramagnetic resonance
38%
electron spin
58%
electrons
53%
emitters
6%
energy
7%
excitation
11%
excitons
21%
field effect transistors
9%
fullerenes
6%
ground state
5%
helium
14%
hot electrons
14%
impurities
6%
infrared detectors
11%
insulators
6%
interactions
5%
laser annealing
5%
life (durability)
9%
liquid helium
7%
luminescence
25%
magnetic fields
9%
magnetic resonance
11%
manipulators
9%
metal oxide semiconductors
5%
metal oxides
5%
metals
9%
microwaves
10%
modulation
6%
nuclear spin
24%
nuclei
6%
phonons
13%
phosphorus
12%
photoconductivity
6%
photoelectric emission
5%
photoluminescence
25%
plasmons
8%
probes
5%
pulses
10%
quantum computation
8%
quantum computers
13%
quantum dots
32%
quantum wells
38%
reflectance
5%
relaxation time
6%
resonators
6%
scattering
9%
shift
8%
silicon
56%
spectroscopy
9%
Stark effect
9%
temperature
5%
temperature dependence
6%
tuning
5%
valleys
15%
wavelengths
5%
Chemical Compounds
Anisotropy
5%
Bound Exciton
26%
Colour Center
10%
Compound Mobility
7%
Conduction Band
7%
Critical Density
6%
Diamond
9%
Donor
23%
Electroluminescence
12%
Electron Density
6%
Electron Particle
30%
Electron Spin
57%
Electron-Nuclear Double Resonance Spectroscopy
7%
Electron-Phonon Interaction
5%
Energy
7%
Epitaxial Film
6%
EPR Spectroscopy
6%
Hot Electron
7%
Interface State
9%
Ion Implantation
5%
Landau Level
6%
LO Phonon
9%
Luminescence Spectroscopy
5%
Luminiscence Type
11%
Magnetic Field
14%
Magnetoplasmon
14%
Magnetoresistance
5%
Nuclear Spin
21%
Phosphorus(.)
7%
Photoluminescence
11%
Quantum Dot
19%
Reflectivity
7%
Resonance
7%
Schottky Barrier
5%
Semiconductor
10%
Single Crystalline Solid
5%
Skyrmion
8%
Spin Echo
7%
Spin Polarization
8%
Spin Transition
6%
Subband
5%
Superlattice
5%
Surface Plasmon
7%
Time
11%
Tunneling
8%
Two-Dimensional Electron Gas
14%
Voltage
5%
Wave
5%