Engineering & Materials Science
Argon
100%
Multilayers
85%
Methane
82%
Hydrogen
70%
Boron carbide
64%
Thin films
41%
High resolution transmission electron microscopy
36%
Carbon
33%
Ion beams
31%
Magnetron sputtering
29%
Electron diffraction
29%
Chemical analysis
28%
Fourier transform infrared spectroscopy
27%
X ray photoelectron spectroscopy
26%
Helium
24%
Spectroscopy
24%
Tungsten
23%
Annealing
21%
X ray diffraction
21%
Ions
20%
X rays
20%
Oxygen
17%
Radiation
17%
Imaging techniques
16%
Microstructure
14%
Physics & Astronomy
methane
81%
argon
68%
atmospheres
62%
boron carbides
56%
hydrogen
54%
characterization
49%
reflectance
31%
x rays
29%
carbon
29%
high resolution
26%
chemical analysis
25%
thin films
22%
mass spectroscopy
21%
infrared spectroscopy
19%
electron microscopy
19%
chemistry
19%
electron diffraction
18%
tungsten
18%
magnetron sputtering
18%
photoelectron spectroscopy
18%
helium
17%
ion beams
17%
oxygen
13%
annealing
13%
microstructure
12%
radiation
12%
diffraction
11%
ions
10%
Chemical Compounds
Multilayer
78%
Methane
70%
Reflectivity
51%
Hydrogen
44%
Boron Atom
38%
Multilayer Film
26%
Magnetron Sputtering
25%
Ion Beam
24%
Secondary Ion Mass Spectroscopy
23%
Electron Diffraction
22%
Carbon Atom
20%
Tungsten
20%
Annealing
17%
X-Ray Photoelectron Spectroscopy
15%
Amorphous Material
15%
Microstructure
14%
X-Ray
13%
Chemistry
12%
Fourier Transform Infrared Spectroscopy
12%
X-Ray Diffraction
10%
Dioxygen
10%
Liquid Film
10%
Amount
9%