Engineering & Materials Science
Epitaxial growth
59%
Scanning
32%
Lasers
32%
Substrates
22%
Nickel
19%
X-Ray Emission Spectrometry
13%
Superalloys
11%
Precipitates
11%
Energy dispersive spectroscopy
10%
3D printers
10%
Deposits
10%
Crack initiation
10%
Gas turbines
9%
Creep
9%
Powders
8%
Fusion reactions
8%
Scanning electron microscopy
8%
Imaging techniques
8%
Fatigue of materials
7%
Physics & Astronomy
epitaxy
42%
scanning
26%
characterization
23%
lasers
18%
nickel
17%
warpage
15%
creep strength
13%
gas turbines
12%
crack initiation
12%
continuity
11%
heat resistant alloys
11%
beds
10%
deposits
9%
precipitates
9%
chemistry
9%
manufacturing
8%
fusion
8%
electron energy
8%
scanning electron microscopy
6%
spectroscopy
5%
x rays
4%
Chemical Compounds
Laser Epitaxy
100%
Alloy
29%
Creep Strength
24%
Face-Centered Cubic Crystal System
15%
Energy Dispersive X-Ray Spectroscopy
13%
Polycrystalline Solid
12%
Additive
9%
Resistance
8%
Scanning Electron Microscopy
8%