Engineering & Materials Science
Superconductivity
100%
Galvanomagnetic effects
77%
Magnetoresistance
64%
Organic conductors
56%
Superconducting materials
55%
Electric field effects
33%
Magnetic fields
32%
Electrons
25%
Crystal structure
23%
Electronic structure
22%
Electric fields
22%
Surface states
22%
Tellurium
21%
Superconducting transition temperature
21%
Transition metals
20%
Topological insulators
20%
Polymorphism
18%
Spin orbit coupling
18%
Temperature
15%
Doping (additives)
15%
Multilayers
12%
Nuclear magnetic resonance
11%
Orbits
11%
Phase transitions
10%
Electronic states
10%
Semiconductor quantum wells
10%
Atoms
9%
Phase diagrams
9%
Photoelectron spectroscopy
9%
Mechanical alloying
9%
Molecular beam epitaxy
7%
Modulation
7%
Single crystals
7%
Crystals
7%
Lattice constants
7%
Optical conductivity
7%
Band structure
6%
Physical properties
6%
Semiconductor materials
6%
Carbides
6%
Metals
6%
Momentum
6%
Negative ions
5%
Specific heat
5%
Niobium
5%
Chemical Compounds
Superconductivity
88%
Magnetoresistance
54%
Conductor
45%
Magnetic Field
41%
Pressure
30%
Electric Field Effect
29%
Superconductive Transition Temperature
27%
Electric Field
23%
Nonconductor
23%
Electronic State
21%
Elemental Tellurium
21%
Resonance
17%
Electron Particle
16%
Tunneling
15%
Spin-Orbit Coupling
13%
Superconducting Gap
13%
Chalcogen
12%
Transition Element
12%
Muon Spin Rotation
11%
Superconducting Critical Temperature
11%
Multilayer
11%
Valence
11%
Magnetic Phase Diagram
11%
Spin Susceptibility
11%
Magnetoelectric Effect
11%
Lattice Constant
11%
Space Group
11%
Landau Level
10%
Monoclinic Space Group
10%
Transport Property
10%
Crystal Structure
9%
Molecular Beam Epitaxy
9%
Laves Phase
9%
Momentum
8%
Selenides
8%
Mechanical Alloying
8%
Surface
7%
Magnetic Susceptibility Measurement
7%
X Ray Absorption Spectroscopy
7%
Quadrupole
6%
Structural Phase Transition
6%
Magnetization
6%
Resistance
6%
Solid State Reaction
5%
Angle Resolved Synchrotron Radiation Photoelectron Spectroscopy
5%
Intercalation Compound
5%
Physics & Astronomy
superconductivity
58%
conductors
43%
interlayers
39%
tellurium
38%
magnetic fields
22%
electric fields
21%
Fermi surfaces
20%
orbits
20%
transition temperature
17%
crystal structure
17%
electronic structure
16%
insulators
13%
transition metals
12%
conduction
10%
shift
10%
crystals
10%
electrons
10%
temperature dependence
9%
nuclear magnetic resonance
9%
oscillations
9%
valence
9%
muon spin rotation
9%
metal compounds
8%
magnetization
8%
selenides
8%
conductivity
8%
Laves phases
8%
electrical resistivity
8%
anomalies
7%
chalcogenides
7%
metalloids
7%
pressure effects
7%
magnetic permeability
7%
penetration
7%
signatures
7%
chirality
7%
niobium
6%
modulation
6%
bismuth
6%
carbides
6%
x rays
6%
Hall effect
6%
atoms
6%
physical properties
6%
phase diagrams
5%
parity
5%
alloying
5%
molecular beam epitaxy
5%
plots
5%
pressure dependence
5%