Engineering & Materials Science
Pulsed laser deposition
100%
Atomic force microscopy
61%
Substrates
57%
Low energy electron diffraction
54%
X rays
48%
Nanowires
40%
Surface roughness
35%
Electron microscopy
31%
Diffraction
28%
Oxides
27%
High energy electron diffraction
27%
Growth temperature
26%
Imaging techniques
24%
Wetting
24%
Microscopes
23%
Crystallites
23%
Oxide films
20%
X ray photoelectron spectroscopy
19%
Telescopes
19%
Desorption
18%
Transmission electron microscopy
16%
Synchrotron radiation
15%
Melting
15%
Nickel
15%
Vacuum
14%
Temperature
14%
Dealloying
13%
Heating
13%
Film growth
12%
Carbon
12%
Superconducting transition temperature
11%
Stacking faults
11%
Monolayers
10%
Aluminum oxide
10%
Surface topography
9%
Topography
9%
Microscopic examination
8%
Deposits
7%
Thin films
7%
Shear stress
7%
Physics & Astronomy
mesas
55%
electron diffraction
55%
wetting
46%
decay
45%
electron microscopy
41%
oxides
40%
energy
38%
atomic force microscopy
36%
nanowires
32%
escape
31%
pulsed laser deposition
30%
crystallites
28%
perovskites
26%
free energy
19%
microscopes
18%
energy of formation
16%
cancellation
16%
statistical analysis
16%
interactions
16%
topography
15%
shear stress
14%
oxide films
14%
flat surfaces
14%
desorption
14%
tensors
12%
base pressure
11%
thermal instability
10%
vacuum
10%
theses
10%
hemispheres
9%
footprints
9%
azimuth
8%
decoupling
8%
crystal defects
7%
scanners
7%
deposits
7%
alloying
7%
signatures
6%
microscopy
5%
heating
5%
Chemistry
Pulsed Laser Deposition
42%
Reflectivity
37%
Low Energy Electron Diffraction
31%
Multilayer
28%
Nanowire
28%
Liquid Film
15%
Crystallite
13%
Desorption
12%
Synchrotron Radiation
11%
Quantum Size Effect
11%
Stacking Fault
11%
Electron Diffraction
10%
Surface Roughness
10%
Shear Stress
9%
Melting
9%
Atomic Force Microscopy
8%
X-Ray Photoelectron Spectroscopy
7%
Transmission Electron Microscopy
7%
Displacement
6%
X-Ray
6%
Pressure
6%
Monolayer
6%
Alloy
5%
X-Ray Diffraction
5%
Energy
5%
Carbon Atom
5%