Engineering & Materials Science
Flux pinning
100%
Niobium
68%
Magnetic flux
60%
Grain boundaries
54%
Defects
37%
Vacancies
29%
Screw dislocations
17%
Superconductivity
16%
Density functional theory
16%
Electronic structure
16%
Lattice constants
16%
Atoms
11%
Electrons
10%
Impurities
10%
Magnetic fields
9%
Physics & Astronomy
niobium
55%
magnetic flux
50%
trapping
41%
grain boundaries
40%
defects
30%
flux pinning
13%
screw dislocations
12%
isolation
10%
tendencies
9%
lattice parameters
9%
depletion
9%
purity
9%
superconductivity
9%
plane waves
9%
penetration
8%
density functional theory
8%
electronic structure
8%
impurities
7%
atoms
5%
magnetic fields
5%
electrons
4%
Chemical Compounds
Magnetic Flux
89%
Grain Boundary
56%
Crystal Line Defect
18%
Augmented Plane Wave Method
17%
Screw Dislocation
17%
Superconductivity
12%
Lattice Parameter
10%
Magnetic Field
10%
Electronic State
7%
Molecular Cluster
7%
Density Functional Theory
6%
Length
6%
Electron Particle
5%