Engineering & Materials Science
Diluted magnetic semiconductors
100%
Metal insulator transition
67%
Anisotropy
52%
Ground state
47%
Electrons
46%
Semiconductor materials
42%
Ferromagnetism
41%
Hamiltonians
33%
Fermions
30%
Wave functions
29%
Spin glass
29%
Carrier concentration
28%
Magnetization
28%
Temperature
26%
Magnetic fields
25%
Fermi liquids
25%
Impurities
25%
Magnetic properties
24%
Electron-electron interactions
23%
Phase diagrams
22%
Silicon
21%
Two dimensional electron gas
21%
Hubbard model
19%
Polarons
16%
Spin waves
15%
Quantum Hall effect
14%
Qubits
14%
Physics
13%
Doping (additives)
13%
Fermi surface
12%
Phase transitions
12%
Thermodynamics
12%
Excited states
11%
Composite materials
11%
Germanium
11%
Ions
10%
Nanocrystalline silicon
10%
Phosphorus
10%
Magnetic semiconductors
10%
Crystals
10%
Exchange interactions
9%
Electron energy levels
9%
Thermodynamic properties
9%
Band structure
9%
Exchange coupling
8%
Charge carriers
8%
Fermi level
8%
Electron transitions
8%
Spin orbit coupling
8%
Experiments
7%
Metals
7%
Hilbert spaces
7%
Superconducting transition temperature
7%
Infrared radiation
7%
Coulomb interactions
6%
Entropy
6%
Scattering
6%
Charge transfer
6%
Permittivity
6%
Liquids
6%
Frequency hopping
6%
Energy gap
6%
Geometry
6%
Antimony
6%
Order disorder transitions
6%
Electronic states
6%
Galvanomagnetic effects
6%
Tensors
5%
Stark effect
5%
Oxide superconductors
5%
Relaxation time
5%
Quantum entanglement
5%
Bosons
5%
Excitons
5%
Physics & Astronomy
insulators
78%
disorders
61%
metals
42%
scaling
41%
spin glass
39%
conductivity
33%
interactions
31%
ferromagnetism
31%
electrons
30%
anisotropy
28%
silicon
23%
integers
22%
exponents
22%
magnetic permeability
21%
impurities
21%
valleys
21%
ground state
21%
magnetic fields
20%
quantum Hall effect
19%
phosphorus
19%
magnetization
18%
eigenvectors
18%
temperature
17%
liquids
17%
excitation
15%
phonons
15%
wave functions
14%
fermions
14%
Fermi liquids
13%
magnetic properties
13%
thermodynamics
13%
energy
12%
transition metals
12%
predictions
11%
polarons
11%
plateaus
11%
magnons
11%
transition temperature
10%
moments
10%
composite materials
10%
germanium
10%
symmetry
9%
simulation
9%
temperature dependence
9%
spin dynamics
9%
graphene
8%
softening
8%
electronics
8%
thermodynamic properties
8%
electron scattering
8%
physics
8%
spin exchange
8%
geometry
8%
approximation
7%
estimates
7%
cells
7%
phase diagrams
7%
crossovers
7%
low frequencies
7%
frequency hopping
7%
topology
7%
electron gas
6%
crystals
6%
ions
6%
specific heat
6%
electron paramagnetic resonance
6%
charge carriers
6%
frustration
6%
rotons
6%
boundary conditions
6%
tensors
6%
renormalization group methods
6%
reflectance
6%
particle energy
6%
degrees of freedom
5%
Fermi surfaces
5%
entropy
5%
operators
5%
tuning
5%
infrared spectra
5%
orbits
5%
scattering
5%
Hall effect
5%
cut-off
5%
modulation
5%
Chemical Compounds
Landau Level
61%
Semiconductor
56%
Metal Insulator Transition
47%
Electron Spin
42%
Disorder
42%
Anisotropy
38%
Ferromagnetism
29%
Fermion
26%
Magnetization
22%
Magnetic Field
22%
Nonconductor
22%
Ground State
20%
Wave Function
20%
Hamiltonian
19%
Electron Particle
19%
Donor
18%
Dimension
17%
Fermi Liquid
16%
Density of State
16%
Hubbard Model
16%
Antiferromagnetic
15%
Spin Wave
15%
Length
13%
Energy
13%
Anderson Model
13%
Conductivity
13%
Density Matrix
12%
Glass
11%
Monte Carlo Method
10%
Polaron
10%
Magnetic Property
10%
Thermodynamic Property
10%
Subband
9%
Tight Binding Model
9%
Two-Dimensional Electron Gas
9%
Magnetic Polaron
8%
Quantum Hall Effect
8%
Thermodynamics
8%
Phase Diagrams
7%
Composite Material
7%
Hilbert Space
7%
Exchange Interaction
7%
Strength
7%
Cylinder
6%
Conductance
6%
Effective Mass
6%
Dielectric Constant
6%
Anderson Localization
6%
Conformal Field Theory
6%
Roton
6%
Spin-Orbit Coupling
5%
Compound Mobility
5%
Fermi Level
5%
Lattice Model
5%
Doping Material
5%
Quantum Entanglement
5%
Phason
5%
Electron Density
5%
Metal
5%
Liquid
5%
Bravais Crystal System
5%
Entropy
5%
New Physics
5%
