Engineering & Materials Science
High temperature superconductors
57%
Superconducting materials
36%
Single crystals
33%
Doping (additives)
31%
Neutron scattering
28%
Temperature
25%
X rays
25%
Oxygen vacancies
24%
Photoelectron spectroscopy
19%
Crystals
16%
Electrons
15%
Hole concentration
15%
Inelastic neutron scattering
15%
Characterization (materials science)
14%
Superconductivity
14%
Scattering
13%
Nuclear magnetic resonance
12%
Microwave measurement
11%
Charge density waves
11%
Fermi surface
11%
Synchrotrons
11%
Magnetometry
10%
Diamagnetism
10%
Superconducting transition temperature
9%
Polypropylene oxides
9%
Carrier concentration
9%
Crystal growth
9%
Lattice vibrations
9%
Momentum
9%
Electron energy loss spectroscopy
8%
Charge carriers
8%
Oxides
8%
Transition metal oxides
8%
Ions
8%
Anisotropy
8%
Fluorspar
8%
Lipid bilayers
8%
Magnetic anisotropy
8%
Phonons
7%
Ultrahigh vacuum
7%
Magnetic resonance
7%
Polyethylene oxides
7%
Epitaxial films
7%
Homopolymerization
7%
Charge transfer
7%
Powders
7%
Neutron diffraction
7%
Gels
6%
Block copolymers
6%
Borides
6%
Physics & Astronomy
cuprates
100%
high temperature superconductors
34%
superconductivity
24%
x ray scattering
22%
single crystals
21%
Fermi liquids
18%
electrons
16%
neutron scattering
16%
transition temperature
15%
excitation
14%
anomalies
13%
inelastic scattering
12%
temperature
12%
energy
11%
inhomogeneity
11%
x ray absorption
11%
operators
10%
magnetic resonance
10%
critical temperature
10%
oxygen
10%
photoelectric emission
10%
phase diagrams
9%
characterization
9%
conductivity
9%
electrolytes
9%
electronics
8%
probes
8%
magnetic fields
8%
Fermi surfaces
8%
oxides
8%
nuclear magnetic resonance
7%
x rays
7%
propylene oxide
7%
x ray spectroscopy
7%
spectroscopy
7%
dichroism
7%
synchrotrons
7%
gels
7%
synthesis
7%
temperature dependence
7%
copper oxides
7%
transistors
6%
absorption spectroscopy
6%
microwaves
6%
magnetic permeability
6%
diamagnetism
6%
cooling
6%
scattering
6%
state vectors
6%
anisotropy
6%
Chemical Compounds
Superconductor
69%
Neutron Scattering
24%
Superconductive Transition Temperature
20%
Single Crystalline Solid
20%
Superconducting Gap
19%
Fermi Liquid
18%
Simple Tetragonal Crystal System
14%
Magnetic Excitation
13%
Hole Concentration
12%
Magnetic Field
12%
Energy
11%
Wave
11%
Antiferromagnetic
11%
Inelastic Neutron Scattering
10%
Momentum
9%
Magnetic Phenomena
9%
Magnetometry
8%
Spin Susceptibility
8%
Conductivity
8%
Magnetization
8%
Magnetic Resonance
7%
Charge Density Wave
7%
Probe
7%
Anisotropy
7%
Diamagnetism
7%
Lattice Dynamics
7%
Resonance
7%
Oxide
7%
Ambient Reaction Temperature
6%
Poloxamer
6%
NMR Spectroscopy
6%
Crystal Growth
6%
Magnetic Anisotropy
6%
Torque
6%
Electron Energy Loss Spectroscopy
6%
Fluorite
6%
Crucible
5%
Optical Spectroscopy
5%
Phonon
5%
Polarization
5%
Neutron Diffraction
5%
Electron Particle
5%