Engineering & Materials Science
Fermions
100%
Photoemission
90%
Iron-based Superconductors
74%
Photoelectron spectroscopy
69%
Thermoelectric power
46%
Band structure
40%
Specific heat
27%
Fermi surface
26%
Skutterudites
23%
Transport properties
21%
Electrons
20%
Semiconductor quantum wells
20%
Anisotropy
20%
Momentum
19%
Crystals
19%
Electronic structure
19%
Substitution reactions
19%
Thermal conductivity
17%
Dispersions
16%
Metals
15%
Photons
12%
Hot Temperature
12%
Thin films
12%
Binding energy
11%
Magnetization
11%
Thermal variables measurement
10%
Magnetic susceptibility
10%
Photoelectrons
10%
Superconductivity
9%
Single crystals
9%
Temperature
9%
Absorption spectroscopy
9%
Magnetic fields
9%
Arsenic compounds
9%
Electric fields
8%
Perovskite
8%
Lasers
7%
Charge density waves
7%
Metallic films
7%
Doping (additives)
7%
Superconducting transition temperature
7%
Scattering
6%
Wave functions
5%
X rays
5%
Valence bands
5%
Physical properties
5%
Temperature distribution
5%
Neutron scattering
5%
Temperature scales
5%
Tuning
5%
Physics & Astronomy
photoelectric emission
81%
fermions
69%
iron
30%
specific heat
30%
electrical resistivity
28%
spectroscopy
27%
Fermi surfaces
26%
orbitals
26%
magnetic fields
25%
critical point
24%
electronic structure
24%
momentum
22%
transport properties
20%
superconductivity
19%
metals
19%
electrons
18%
tuning
17%
heavy fermion systems
17%
thermal conductivity
16%
crystals
16%
substitutes
15%
magnetic permeability
14%
Kondo effect
13%
electronics
12%
energy
12%
field of view
11%
Hall effect
11%
heat measurement
11%
analyzers
11%
cascades
11%
coefficients
10%
anomalies
10%
quantum wells
9%
retarding
9%
moments
9%
twinning
9%
temperature
9%
thermodynamics
8%
arsenic compounds
8%
Brillouin zones
7%
predictions
7%
valence
7%
probes
7%
particle mass
7%
crossovers
7%
binding energy
7%
elementary excitations
7%
x ray absorption
7%
thermodynamic properties
6%
thin films
6%
Chemical Compounds
Quasiparticle
51%
Photoemission
44%
Fermion
40%
Electronic Band Structure
30%
Superconducting Gap
25%
Heavy Fermion System
25%
Orbital
24%
Transport Property
24%
Superconductor
23%
Thermoelectricity
21%
Heat
19%
Magnetic Field
18%
Electric Field
15%
Order Parameter
15%
Binding Energy
15%
Valence
15%
Work Function
14%
Weight
14%
Thermal Conductivity
14%
Electron Spin
12%
Substitution Reaction
12%
Thermodynamic Property
11%
Momentum
11%
Ferromagnetic Ordering
9%
Electronic State
9%
Nematic Phase
9%
Strain
9%
Surface
8%
P63
8%
Wave
8%
Reduction
7%
Anisotropy
7%
Superconductivity
7%
Valance Band
6%
Magnetic Susceptibility
6%
Single Crystalline Solid
6%
Magnetic Phenomena
6%
Absorption Spectroscopy
6%
Magnetization
6%
Conduction Electron
5%
Polycrystalline Solid
5%
Metal
5%
Magnetic Ordering
5%
Neutron Scattering
5%
Wave Function
5%
