Engineering & Materials Science
Molecular beam epitaxy
100%
Substrates
63%
Raman spectroscopy
31%
Reflection high energy electron diffraction
30%
Spectroscopy
28%
Energy gap
26%
Liquid phase epitaxy
26%
Indium
26%
Infrared radiation
25%
Nanostructures
24%
Crystalline materials
24%
X ray photoelectron spectroscopy
24%
Phonons
22%
Atomic force microscopy
21%
Photoluminescence spectroscopy
20%
Annealing
19%
Temperature
18%
Heterojunctions
18%
Physical properties
17%
Two dimensional electron gas
17%
Epilayers
17%
Semiconductor quantum wells
15%
Epitaxial films
15%
Secondary ion mass spectrometry
15%
Monolayers
13%
Buffer layers
13%
Atoms
12%
Semiconductor materials
11%
Electric fields
11%
Optoelectronic devices
11%
Chemical properties
11%
Doping (additives)
11%
Depth profiling
10%
Solar cells
10%
Activation energy
10%
Carrier concentration
10%
Structural properties
10%
Aluminum oxide
9%
Quality control
9%
Thin films
9%
Rutherford backscattering spectroscopy
9%
Ions
9%
Wavelength
8%
Arsenic
8%
High resolution electron microscopy
8%
X ray diffraction
8%
Photoluminescence
8%
Modulation
7%
Diffraction patterns
7%
Optical transitions
7%
Chemistry
Molecular Beam Epitaxy
47%
Alloy
22%
Liquid Phase Epitaxy
21%
Raman Spectroscopy
18%
Quantum Dot
17%
Surface
17%
LO Phonon
17%
Annealing
15%
Spectroscopy
14%
Band Gap
14%
Atomic Force Microscopy
14%
Epitaxial Film
14%
Strain
13%
Electric Field
12%
Reflection High Energy Electron Diffraction
12%
Nanomaterial
12%
Depth Profiling
12%
Semiconductor
11%
X-Ray Photoelectron Spectrum
11%
Energy
10%
Photoluminescence Spectroscopy
10%
Emission Peak
10%
Hexagonal Space Group
10%
Backscattering
9%
Application
9%
Phonon
9%
Quality Control
9%
Optoelectronics
9%
Liquid Film
8%
Selection Rule
8%
Solar Cell
8%
Hole Concentration
7%
Monolayer
7%
Photoluminescence Spectrum
7%
Wavelength
7%
Deep Impurity Level
7%
Reaction Activation Energy
6%
Ambient Reaction Temperature
6%
Rutherford Backscattering Spectroscopy
6%
Amorphous Material
5%
Corrugated Surface
5%
Buffer Solution
5%
TEM Image
5%
Epitaxial Growth
5%
Secondary Ion Mass Spectroscopy
5%
Physics & Astronomy
molecular beam epitaxy
41%
self assembly
20%
indium
19%
secondary ion mass spectrometry
17%
Raman spectroscopy
15%
quantum wells
15%
quaternary alloys
13%
nitrogen plasma
12%
quantum Hall effect
11%
modulation
11%
oscillations
11%
caps
10%
high energy electrons
10%
nitrides
10%
spectroscopy
9%
epitaxy
9%
atomic force microscopy
9%
electric fields
9%
quantum wires
9%
nitrogen
9%
electron diffraction
9%
backscattering
8%
photoluminescence
8%
x rays
8%
profiles
8%
diffraction
8%
quantum dots
7%
depletion
7%
interference
6%
phonons
6%
sapphire
6%
manganese
6%
high resolution
6%
characterization
6%
surface diffusion
6%
azimuth
5%
diffraction patterns
5%
room temperature
5%