INIS
spin
85%
electrons
57%
magnetic fields
47%
spectra
42%
transport
33%
energy spectra
27%
modulation
27%
semiclassical approximation
27%
magnetization
26%
carriers
22%
phase transformations
22%
energy
22%
periodicity
21%
fluctuations
21%
hall effect
20%
chirality
19%
rings
19%
layers
19%
heisenberg model
19%
coupling
18%
scattering
17%
antiferromagnetism
17%
curves
14%
spin orientation
14%
berries
12%
values
12%
topology
11%
magnetic flux
11%
electron gas
11%
semimetals
10%
approximations
10%
chains
9%
dynamics
9%
photoluminescence
9%
ising model
9%
graphene
9%
dispersions
9%
point defects
9%
scanning tunneling microscopy
9%
surfaces
9%
axions
9%
level widths
9%
self-energy
9%
temperature (transition)
9%
hysteresis
9%
interactions
9%
electron-phonon coupling
9%
quantum dots
9%
electrostatics
9%
numerical analysis
9%
Physics
Spin
100%
Electrons
75%
Magnetic Fields
55%
Model
46%
Spectra
39%
Plane
37%
Magnetization
29%
Energy Spectra
29%
Electron Scattering
21%
Photoelectric Emission
21%
Variations
19%
Phase Transition
19%
Value
18%
Temperature
17%
Energy Levels
16%
Magnetic Flux
11%
Transport Properties
11%
Electron Gas
11%
Electric Fields
10%
Magnitude
10%
Density of States
9%
Width
9%
Impurities
9%
Transition Temperature
9%
Pressure
9%
Electron Phonon Interactions
9%
Exciton
9%
Point Defect
9%
Graphene
9%
Topological Insulator
9%
Bloch Band
9%
Approximation
9%
Electron Spin
9%
Accumulations
9%
Electromagnetic Wave
9%
Quantum Theory
9%
Electromagnetic Fields
9%
Orbitals
9%
Brewster Angle
9%
Quantum Dot
9%
Gaps
8%
Cyclotron
8%
Spin-Orbit Coupling
7%
Existence
6%
Insulators
6%
Rotation
6%
Eddy
6%
Independent Variables
6%
Responses
6%
Electric Potential
5%
Chemistry
Electron Particle
37%
Magnetic Field
35%
Magnetization
32%
Spectra
31%
Energy
26%
Reaction Temperature
19%
Spin Polarization
19%
Heisenberg Model
19%
Phase Transition
19%
Charge Density Wave
19%
Concentration
14%
Antiferromagnetic
14%
Disorder
13%
Structure
13%
Electron Transport
13%
Particle Size
12%
Absorption Spectrum
9%
Photoluminescence Spectrum
9%
Electron-Phonon Interaction
9%
Lattice Model
9%
Ferrimagnetic
9%
Density of State
9%
Self-Energy
9%
Finite-Temperature
9%
Quantum Dot
9%
Electronic Property
9%
Semiclassical Theory
9%
Subband
6%
Symmetry
6%
Absorption Coefficient
6%
Zero-Temperature
6%
Potential Barrier
5%
Electric Field
5%