Engineering & Materials Science
Superconductivity
100%
Superconducting materials
66%
Temperature
41%
Multiferroics
41%
Superconducting transition temperature
36%
Doping (additives)
33%
Magnetization
31%
Phonons
27%
Single crystals
25%
Magnetic fields
24%
Raman scattering
21%
Pressure effects
20%
Hydrostatic pressure
19%
High temperature superconductors
19%
Ferroelectric materials
18%
Specific heat
17%
Lattice constants
16%
Thermoelectric power
16%
Magnetic properties
15%
Electrons
14%
Ferroelectricity
13%
Thin films
12%
Phase transitions
12%
Polarization
11%
Phase diagrams
11%
Positrons
11%
Rare earths
10%
Fermi surface
10%
Magnetic structure
10%
Spectroscopy
10%
Substitution reactions
10%
Spin density waves
9%
Defects
8%
Neutron powder diffraction
8%
Positron annihilation
8%
Vortex flow
8%
Ions
8%
Anisotropy
8%
Magnetoresistance
8%
Annealing
8%
Oxide superconductors
7%
Isotopes
7%
Ferromagnetism
7%
Fermi level
7%
X ray diffraction
7%
Electronic properties
6%
Oxides
6%
Carrier concentration
6%
Exchange interactions
6%
Polarons
6%
Magnetism
6%
Magnetic susceptibility
6%
Nuclear magnetic resonance
6%
Phase separation
6%
Substrates
6%
Charge density waves
6%
Permittivity
6%
Positive ions
5%
Magnetoelectric effects
5%
Scattering
5%
Band structure
5%
Manganites
5%
Transport properties
5%
Charge transfer
5%
Crystals
5%
Perovskite
5%
Charge carriers
5%
Fermi liquids
5%
Magnetic variables measurement
5%
X rays
5%
Raman spectroscopy
5%
Epitaxial films
5%
Spin-lattice relaxation
5%
Flux pinning
5%
Ground state
5%
Topological insulators
5%
Magnetic moments
5%
Metals
5%
Physics & Astronomy
superconductivity
77%
transition temperature
36%
pressure effects
23%
cuprates
22%
hydrostatic pressure
20%
single crystals
19%
temperature
18%
high temperature superconductors
18%
magnetic fields
18%
oxygen
16%
magnetization
15%
electrical resistivity
15%
anomalies
14%
pressure dependence
14%
specific heat
13%
Group 5A compounds
12%
phonons
12%
ferroelectricity
12%
critical current
11%
magnetic permeability
11%
thin films
10%
phase diagrams
10%
rare earth elements
10%
substitutes
10%
defects
10%
polarization
9%
Raman spectra
9%
vortices
9%
synthesis
9%
positrons
9%
room temperature
8%
oxides
8%
temperature dependence
8%
Fermi surfaces
8%
electrons
8%
life (durability)
8%
x rays
7%
positron annihilation
7%
lattice parameters
7%
electronics
7%
current density
7%
magnetic properties
7%
diffraction
7%
permittivity
6%
annealing
6%
penetration
6%
augmentation
6%
insulators
6%
nuclear magnetic resonance
6%
moments
6%
anisotropy
6%
ions
5%
symmetry
5%
isotope effect
5%
magnetic measurement
5%
perovskites
5%
spectroscopy
5%
hysteresis
5%
iron
5%
Chemical Compounds
Superconductivity
77%
Superconductor
69%
Pressure
37%
Magnetic Field
25%
Superconductive Transition Temperature
25%
Magnetization
24%
Phonon
17%
Single Crystalline Solid
15%
Electron Spin
13%
Dioxygen
13%
Irreversibility Line
12%
Polarization
10%
Lattice Parameter
10%
Liquid Film
10%
Superconducting Gap
10%
Magnetic Transition
9%
Magnetic Property
9%
Positron
9%
Magnetic Structure
9%
Antiferromagnetic
8%
Magnetoelectric Effect
7%
Phase Diagrams
7%
Dielectric Constant
7%
Spin Density Wave
7%
Anisotropy
7%
Magnetoresistance
7%
Annealing
7%
Tetragonal Space Group
7%
Substitution Reaction
7%
Heat
6%
Raman Spectrum
6%
Lanthanoid Atom
6%
Current Density
6%
Neutron Diffraction
6%
Heat Capacity
6%
Thermoelectricity
6%
Oxide
6%
Hysteresis
5%
Surface
5%
Density of State
5%
Meissner Effect
5%
Polycrystalline Solid
5%
Resistance
5%
Polarized Raman Spectrum
5%