Engineering & Materials Science
Hubbard model
100%
Ferroelectric materials
66%
Superconductivity
45%
Phonons
43%
Doping (additives)
39%
Charge density waves
36%
Multiferroics
35%
Domain walls
32%
Electrons
29%
Lattice vibrations
28%
Ferroelectricity
26%
Photoelectron spectroscopy
25%
Manganites
22%
Synchrotrons
20%
Oxides
18%
Ground state
18%
Spectroscopy
18%
Fermions
17%
Temperature
16%
Infrared spectroscopy
16%
Rare earths
16%
Mean field theory
15%
Crystal structure
14%
Raman scattering
14%
Fermi level
14%
Phase transitions
12%
Kondo effect
12%
Diamonds
12%
Polarization
11%
Mott insulators
11%
Electron-phonon interactions
10%
Physics
9%
Polarons
9%
Perovskite
8%
Energy barriers
8%
Infrared radiation
8%
Experiments
8%
Impurities
7%
Chemical potential
7%
High temperature superconductors
7%
Carrier concentration
6%
Superconducting materials
6%
Electric fields
6%
Phase diagrams
6%
Fourier transforms
6%
Indium
6%
Charge transfer
6%
Hole concentration
6%
Density functional theory
6%
Photoemission
5%
Chemical Compounds
Quasiparticle
49%
Ferroelectric Switching
44%
Superconductivity
36%
Ferroelastic Domain
35%
Hubbard Model
34%
Phonon
29%
Lattice Dynamics
28%
Charge Density Wave
27%
Electron Spin
27%
Ferroelectric Domain
25%
Scanning Transmission Electron Microscopy
22%
Order Parameter
21%
Monte Carlo Method
19%
Polarization
18%
Heterogeneity
18%
Strength
17%
Ground State
16%
Random Phase Approximation
15%
Antiferromagnetic
15%
Superconductor
15%
Electron Particle
14%
Electron-Phonon Interaction
14%
Diamond
13%
Ambient Reaction Temperature
13%
Scattering Spectroscopy
12%
Electron Energy Loss Spectroscopy
11%
Oxide
11%
Lanthanoid Atom
11%
Nonconductor
10%
Energy Barrier
10%
Mean-Field Theory
10%
Cryogenics
10%
Magnetism
10%
Thermal Expansion
10%
IR Spectroscopy
10%
Superlattice
10%
Tunneling
9%
Wave
9%
Light Scattering
8%
Fermi Level
8%
Pressure
8%
Orbital
8%
Displacement
7%
Strain
7%
Phase Diagrams
7%
Space Group
7%
Single Crystalline Solid
6%
Antiferromagnetic Ordering
6%
Physics & Astronomy
cuprates
62%
superconductivity
35%
phonons
34%
electrons
31%
determinants
31%
spectroscopy
29%
photoelectric emission
29%
domain wall
20%
electronics
18%
ground state
16%
ferroelectricity
15%
excitation
15%
symmetry
14%
interference
13%
polarons
13%
oxides
13%
transmission electron microscopy
12%
probes
12%
antiferromagnetism
12%
temperature
11%
physics
10%
asymmetry
10%
chalcogenides
9%
energy
9%
cations
9%
vortices
9%
scanning electron microscopy
9%
perovskites
9%
softening
9%
momentum
9%
cryogenics
9%
synchrotrons
9%
substitutes
8%
scanning
8%
inelastic scattering
8%
manipulators
8%
crystal structure
8%
near fields
8%
light scattering
8%
textures
8%
electron phonon interactions
8%
iron
7%
grain boundaries
7%
scattering
7%
insulators
7%
polarization
7%
pumps
6%
orbitals
6%
antisite defects
6%
degrees of freedom
6%
