Engineering & Materials Science
Doping (additives)
100%
Substrates
61%
Critical currents
59%
Superconducting wire
57%
Buffer layers
55%
Tapes
53%
Magnetic fields
51%
Wire
51%
Superconducting materials
32%
Crystal defects
31%
Textures
28%
Transport properties
27%
Multilayer films
25%
Magnetic flux
25%
Texturing
25%
Powders
24%
Flux pinning
23%
Iron
23%
Metallorganic chemical vapor deposition
22%
Superconducting tapes
21%
Scanning electron microscopy
21%
Infiltration
19%
Ball milling
19%
Powder metallurgy
19%
Magnets
17%
Metals
16%
Yttrium barium copper oxides
16%
Coating techniques
16%
Strontium titanates
15%
Positive ions
15%
Temperature
15%
Spin coating
14%
Nickel
14%
Full width at half maximum
14%
Magnetic shielding
13%
Electromagnetic launchers
13%
Microstructure
13%
Microemulsions
12%
Solidification
12%
Superconducting magnets
12%
X rays
12%
Particle size
12%
Partial pressure
11%
Titanium
11%
Single crystals
11%
Cracks
11%
Current density
11%
Calcination
10%
Chemical Compounds
Conductor
90%
Magnetic Field
55%
Force
47%
Superconducting Wire
43%
Current Density
39%
Cubic Crystal
37%
Crystalline Texture
35%
Levitation
32%
Superconductor
30%
Magnetic Flux
30%
Buffer Solution
25%
Liquid Film
25%
Coil
24%
Application
24%
Transport Property
24%
Doping Material
22%
Powder Metallurgy
20%
Alloy
19%
Solidification
18%
Grain Refinement
17%
Ball Milling
17%
Electron Microprobe Analysis
17%
Magnetic Levitation
16%
Crystal Defect
16%
Heat Treatment
16%
Microstructure
16%
Grain Growth
15%
Multilayer
15%
Electromagnet
14%
Mandrel
13%
Critical Temperature
13%
Length
13%
Solenoid
12%
Time
12%
Strain
11%
Deformation (Mechanical)
11%
Dimension
11%
Annealing
10%
Superconductivity
9%
Cation
9%
Partial Pressure
9%
Copper Oxide
9%
Densification
9%
Liquid
8%
Chemical Potential
8%
Diffusion
7%
Spin Coating
7%
Melting
7%
White
7%
Calcination
7%
Physics & Astronomy
critical current
58%
conductors
57%
tapes
47%
wire
45%
levitation
29%
augmentation
28%
current density
27%
textures
25%
buffers
25%
fabrication
25%
powder metallurgy
19%
tubes
19%
sheaths
18%
iron
18%
field theory (physics)
17%
infiltration
16%
coils
16%
manufacturing
16%
flux pinning
15%
magnetic fields
14%
trapped magnetic fields
14%
inoculation
14%
metalorganic chemical vapor deposition
13%
magnetic flux
13%
metals
12%
barium oxides
12%
scanning electron microscopy
12%
trapping
12%
fluoroscopy
12%
solidification
11%
physicians
11%
electric power
11%
alternating current
11%
crystal defects
11%
magnetic shielding
11%
titanium
10%
cations
10%
launchers
10%
critical temperature
10%
strontium titanates
10%
nickel
10%
transport properties
10%
copper oxides
9%
costs
9%
education
9%
roasting
9%
balls
9%
propulsion
9%
superconducting magnets
9%
partial pressure
9%
