Engineering & Materials Science
Pulsed laser deposition
100%
Optical properties
80%
Structural properties
70%
Thin films
65%
Cadmium
64%
Phase diagrams
55%
Mass spectrometry
41%
Temperature
35%
Solubility
35%
Thermodynamic properties
30%
Vapors
28%
Thermodynamics
27%
Substrates
26%
Photoluminescence
26%
Silicates
24%
Energy gap
21%
Iron
19%
Nickel oxide
16%
Light absorption
15%
Crystalline materials
14%
Crucibles
14%
Ions
14%
Chemical analysis
14%
Partial pressure
12%
Neodymium lasers
12%
Gas mixtures
12%
Slags
10%
Nickel
10%
Annealing
9%
Crystals
9%
Cadmium chloride
9%
Ultraviolet spectroscopy
9%
Oxygen
8%
Vacuum
8%
Glass
7%
Ammonium hydroxide
7%
Red Shift
7%
Vacancies
7%
Liquids
7%
Crystallites
6%
Atomic force microscopy
5%
X ray diffraction analysis
5%
Ablation
5%
Energy dispersive spectroscopy
5%
X ray diffraction
5%
Laser beams
5%
Surface morphology
5%
Quartz
5%
Particle size
5%
Salts
5%
Chemistry
Pulsed Laser Deposition
85%
Cadmium Selenide
52%
Optical Property
47%
Liquid Film
46%
Crucible
38%
Slag
33%
Partial Pressure
30%
Phase Diagrams
29%
Alloy
22%
Purity
21%
Solubility
20%
Cubic Space Group
20%
Liquid
17%
Oxide
17%
Gas
17%
Mixture
16%
Hexagonal Space Group
15%
Dioxygen
15%
Reduction
14%
Band Gap
14%
Photoluminescence
12%
Ambient Reaction Temperature
10%
Absorptivity
9%
Annealing
7%
Vacuum
7%
UV/VIS Spectroscopy
6%
Ion
6%
Ammonium Hydroxide
5%
Ablation
5%
Pressure
5%
Glass Substrate
5%
Physics & Astronomy
pulsed laser deposition
61%
cadmium selenides
52%
fluence
30%
solubility
29%
baths
29%
optical properties
21%
silicates
20%
thin films
18%
iron
15%
temperature
15%
nickel oxides
13%
slags
12%
crucibles
12%
partial pressure
10%
gas mixtures
10%
room temperature
9%
liquid phases
9%
nickel
8%
phase diagrams
8%
YAG lasers
7%
chambers
6%
oxygen
6%
cadmium chlorides
6%
vacuum
5%