INIS
electronic structure
85%
perovskites
61%
approximations
58%
perovskite
47%
spectra
45%
absorption
42%
x radiation
41%
density functional method
36%
antiferromagnetism
33%
transition metals
27%
comparative evaluations
23%
density of states
23%
correlations
21%
metals
21%
spectroscopy
20%
optimization
19%
spin
19%
interactions
18%
energy
17%
intermetallic compounds
16%
investigations
14%
magnetism
14%
coupling
14%
magnetic properties
13%
stability
13%
exchange interactions
11%
l-s coupling
11%
corrections
11%
magnetic moments
10%
phosphors
9%
anisotropy
9%
superconductors
9%
luminescence
9%
topology
9%
semiconductor materials
9%
chains
9%
surfaces
8%
afm
8%
ions
8%
hybridization
7%
atoms
7%
wave propagation
7%
polycrystals
7%
lattice parameters
7%
electrons
6%
nanowires
6%
transition elements
6%
prediction
6%
light emitting diodes
5%
curves
5%
Physics
Calculation
100%
Electronic Structure
77%
First-Principles
74%
Generalized Gradient Approximation
49%
Spectra
39%
Perovskite
38%
Transition Element
35%
Density Functional Theory
33%
Sites
32%
Transition Metal
29%
Spin
25%
Density of States
23%
Metal
22%
X Ray Absorption
21%
Spectroscopy
20%
Spectrometer
20%
Optimization
20%
Insulators
17%
Intermetallics
16%
Magnetism
15%
Magnetic Properties
14%
Semiconductor
13%
Magnetic Moment
11%
Photoabsorption
10%
Gaps
10%
Atoms
9%
Ion
9%
Correction
9%
Antiferromagnetism
9%
Orbitals
9%
Spin-Orbit Coupling
8%
Nanowires
8%
Electrons
8%
Structural Stability
7%
Polycrystalline
7%
Plane Wave
6%
Semiconductors (Materials)
5%
Stability
5%
Magnetic Anisotropy
5%
Value
5%
Chemistry
Perovskite
50%
Electronic State
46%
First Principle
45%
Structure
30%
Transition Element
26%
Spectra
25%
Antiferromagnetic
20%
Density Functional Theory
19%
Generalized Gradient Approximation
19%
Spectroscopy
19%
Density of State
17%
X-Ray
14%
Optimization
11%
Energy
11%
Magnetic Property
10%
Correlation
10%
Spin-Orbit Coupling
10%
Nonconductor
9%
Metal
9%
Superconductor
9%
Luminiscence Type
9%
Electronic Property
9%
Group IVA Element
9%
Phosphor
9%
Wave
8%
Ferrimagnetic
8%
Nanowire
8%
Band Gap
8%
Intermetallic Compound
6%
Magnetic Moment
6%
Surface
5%
Atomic Force Microscopy
5%