Engineering & Materials Science
Molecular beam epitaxy
100%
Perovskite
50%
Oxides
39%
Carrier concentration
38%
Epitaxial films
28%
Heterojunctions
27%
Electrons
23%
Temperature
22%
Doping (additives)
20%
Energy gap
18%
Magnetism
18%
Electronic structure
18%
Thin films
17%
Substrates
17%
Metals
16%
Oxygen
16%
Magnetoresistance
15%
Stoichiometry
13%
Reflection high energy electron diffraction
13%
Galvanomagnetic effects
13%
X rays
13%
Scattering
13%
Transmission electron microscopy
13%
Vacancies
13%
Point defects
12%
MESFET devices
11%
Oxygen vacancies
11%
Crystalline materials
11%
Phase transitions
10%
Conduction bands
10%
Strain relaxation
9%
Mott insulators
9%
Defects
9%
Tin
9%
Impurities
8%
Scanning electron microscopy
8%
Single crystals
8%
Oxide semiconductors
8%
Ferromagnetism
8%
Spin orbit coupling
7%
Semiconductor materials
7%
Ferroelectric materials
7%
Superconductivity
7%
Positive ions
7%
Sapphire
7%
Field effect transistors
6%
Chemical Compounds
Molecular Beam Epitaxy
82%
Liquid Film
47%
Compound Mobility
23%
Oxide
23%
Electron Mobility
18%
Scanning Transmission Electron Microscopy
16%
Magnetoresistance
16%
Dioxygen
15%
Magnetism
13%
Band Gap
13%
Ambient Reaction Temperature
12%
Field Effect
12%
Electron Particle
11%
Reflection High Energy Electron Diffraction
11%
Epitaxial Film
11%
Strain
11%
Semiconductor
10%
Molecular Beam
10%
Crystal Point Defect
10%
Reaction Stoichiometry
9%
Electronic State
9%
Two-Dimensional Electron Gas
9%
Rutile
7%
Conductivity
6%
Electron Energy Loss Spectroscopy
6%
Misfit Dislocation
6%
Probe
6%
Orbital
6%
Transconductance
6%
Hall Effect
5%
Electron Density
5%
Nonconductor
5%
Metal Insulator Transition
5%
Doping Material
5%
Fermi Level
5%
Conduction Band
5%
Interstitial
5%
Superconductivity
5%
Alkaline Earth Metal
5%
Shubnikov-De Haas Effect
5%
Single Crystalline Solid
5%
Ferromagnetism
5%
Physics & Astronomy
molecular beam epitaxy
51%
oxides
29%
perovskites
25%
electronics
19%
electron mobility
16%
thin films
15%
stoichiometry
15%
electronic structure
12%
stannates
12%
oxygen
11%
electrons
10%
metals
9%
transmission electron microscopy
9%
insulators
9%
defects
9%
conduction bands
8%
impurities
8%
electron gas
8%
scanning electron microscopy
8%
x ray spectroscopy
7%
room temperature
7%
temperature
7%
point defects
6%
single crystals
6%
cations
6%
high energy electrons
6%
engineering
6%
phonons
6%
rutile
5%
x ray diffraction
5%
lattice parameters
5%
heterojunctions
5%
probes
5%
electron diffraction
5%
thermal conductivity
5%
energy
5%
electron energy
5%
photoelectron spectroscopy
5%
synthesis
5%
conductivity
5%
Hall effect
5%