Engineering & Materials Science
Telegraph
100%
Manganites
88%
Thin films
86%
Superconducting materials
80%
Magnetic fields
80%
Vortex flow
72%
Temperature
58%
Single crystals
56%
Magnetization
48%
Electric potential
45%
Superconducting films
43%
Bias currents
37%
Magnetic properties
34%
Fluxes
34%
Limiters
34%
Nanoparticles
30%
Microwaves
29%
Induced currents
23%
Electrons
22%
Crystals
21%
Crystalline materials
19%
Critical currents
19%
Semiconductor quantum wells
19%
Superconductivity
18%
Relaxation
18%
Superconducting transition temperature
17%
Magnetic flux
16%
Curie temperature
16%
Galvanomagnetic effects
16%
Transport properties
15%
Magnetic domains
14%
Electric fields
14%
Substrates
14%
Electron irradiation
13%
Tunnel junctions
13%
Domain walls
13%
Power spectrum
13%
High temperature superconductors
13%
Phase separation
12%
Nucleation
12%
Doping (additives)
12%
Hot Temperature
11%
Fault current limiters
11%
Lasers
11%
Magnetism
10%
Magnetooptical effects
10%
Hysteresis loops
10%
Detectors
10%
Interferometers
9%
Power spectral density
9%
Physics & Astronomy
vortices
88%
thin films
66%
electric potential
54%
single crystals
53%
magnetic fields
43%
electrical resistivity
40%
Josephson junctions
31%
temperature
30%
nanoparticles
26%
magnetic properties
25%
noise spectra
25%
strip
24%
low frequencies
24%
conductivity
24%
microwaves
21%
transport properties
21%
penetration
21%
doped crystals
21%
magnetization
19%
superconducting films
19%
flow noise
19%
magnetic flux
18%
crystals
17%
disorders
17%
tunnel junctions
17%
critical current
16%
hysteresis
16%
metastable state
16%
magnetic domains
15%
alternating current
15%
transition temperature
15%
quantum well infrared photodetectors
15%
microwave emission
14%
high temperature superconductors
13%
Josephson effect
12%
lasers
12%
temperature dependence
12%
interactions
10%
power spectra
10%
critical temperature
10%
background noise
10%
bundles
10%
quantum wells
9%
electrons
9%
remanence
9%
retarding
9%
domain wall
8%
performance
8%
Curie temperature
8%
contamination
8%
Chemical Compounds
Magnetic Field
87%
Superconductor
63%
Voltage
56%
Magnetization
39%
Ferromagnetic Domain
37%
Single Crystalline Solid
36%
Liquid Film
34%
Antiferromagnetic
31%
Flow
27%
Magnetic Property
27%
Tunneling
22%
Magnetic Flux
21%
Superconductivity
21%
Transport Property
20%
Nanoparticle
19%
Conductivity
18%
Curie Temperature
16%
Cylinder
16%
Molecular Cluster
15%
Magnetic Domain
15%
Electric Field
14%
Electron Irradiation
14%
Microwave
13%
Critical Temperature
13%
Time
13%
Magnetic Hysteresis
12%
Phase Separation
12%
Creep
11%
Energy Barrier
10%
Superconducting Film
10%
Energy
10%
Hysteresis
10%
Memory Effect
10%
Nucleation
9%
Statistical Ensemble
9%
Cooling
9%
Charge Ordering
8%
Resonance
8%
Microstructure
8%
Magnetism
8%
Diamagnetic
7%
Magnetoresistance
7%
Resistance
7%
Electron Particle
7%
Conductance
7%
Length
7%
Superconducting Critical Temperature
6%
Volume
6%
Resonant Tunneling
6%
Interface Trap
6%