Engineering & Materials Science
Superconducting materials
100%
Magnetoresistance
52%
Indium
29%
Temperature
26%
Superconductivity
25%
Superconducting films
23%
Oxide films
22%
Thin films
22%
Nanowires
20%
Transport properties
17%
Magnetic properties
17%
Niobium
16%
Transition metals
14%
Nickel
14%
Phase transitions
13%
Tunnel junctions
13%
Spectroscopy
13%
Energy gap
12%
Metals
12%
Nanoparticles
11%
Polyols
11%
Nanospheres
10%
Colossal magnetoresistance
10%
Magnetic fields
10%
Microwaves
9%
Fabrication
9%
Carrier concentration
9%
Metal insulator transition
9%
Perovskite
8%
Ultrathin films
8%
Magnetization
8%
Vortex flow
7%
Amorphous films
7%
Specific heat
7%
Photons
7%
Carbon
7%
Coulomb interactions
6%
Gold nanoparticles
6%
Superparamagnetism
6%
Nitrides
6%
Modulators
6%
Magnetic susceptibility
6%
Electrodes
6%
Thermometers
6%
Large scale systems
6%
Magnetic nanoparticles
6%
Electric potential
6%
Relaxation
6%
Wave functions
5%
Nanostructures
5%
Chemical Compounds
Superconductor
53%
Magnetoresistance
42%
Liquid Film
39%
Nonconductor
27%
Resistance
26%
Disorder
25%
Proximity Effect
23%
Superconductivity
22%
Tunneling
20%
Ferromagnetic Film
15%
Polyol Method
14%
Nanowire
14%
Conductance
13%
Critical Temperature
13%
Magnetic Field
13%
Hopping Conductivity
11%
Magnetic Property
10%
Electron Spin
9%
Negative Magnetoresistance
8%
Density of State
8%
Superconducting Gap
8%
Nanoparticle
7%
Amorphous Material
7%
Transport Property
7%
Oxide
7%
Quantum Interference
7%
Renormalization Group Theory
7%
Voltage
7%
Andreev Reflection
6%
Magnetic Hysteresis
6%
Length
6%
Ising Model
6%
Nanosphere
6%
Magnetization
6%
Quenched Disorder
6%
Photon
6%
Band Gap
6%
Heat
5%
Metal
5%
Nitride
5%
Inductance
5%
Sphere
5%
Coulomb Blockade
5%
Superconducting Film
5%
Gold Nanoparticle
5%
Griffith Reaction
5%
Physics & Astronomy
insulators
49%
disorders
37%
indium oxides
22%
superconductivity
17%
oxide films
15%
nanowires
15%
nanoparticles
14%
transport properties
13%
niobium
13%
thin films
12%
metals
12%
electric potential
12%
vortices
12%
superconducting films
11%
tunnel junctions
11%
temperature
10%
electrons
10%
ferromagnetic films
10%
magnetic fields
9%
conductivity
9%
nickel
9%
magnetic properties
9%
crossovers
8%
magnetization
8%
Josephson junctions
7%
curves
7%
specific heat
7%
quantum dots
7%
ferromagnetism
7%
interference
7%
glass
7%
anomalies
7%
fabrication
6%
electrodes
6%
geometry
6%
critical point
6%
analogs
6%
exponents
6%
magnetic force microscopy
6%
gold
5%
interactions
5%
deposits
5%
heat measurement
5%
modulators
5%
scaling
5%
resistors
5%
tuning
5%
transition metals
5%
screening
5%
photons
5%
