Engineering & Materials Science
Permittivity
100%
Superconducting materials
75%
Temperature
66%
Microwaves
61%
Capacitors
47%
Dielectric losses
45%
Sintering
39%
Glass
36%
Powders
35%
Electric properties
30%
Dielectric relaxation
29%
Composite materials
27%
Glass ceramics
26%
Tapes
26%
Polymers
23%
Substrates
23%
Resonators
23%
Microstructure
22%
Thin films
22%
Energy storage
21%
Silver
21%
Microwave frequencies
21%
Electric fields
20%
Electrodes
20%
Characterization (materials science)
20%
Oxides
19%
Ferroelectric materials
17%
Lead
16%
Chemical analysis
16%
Multilayers
16%
Capacitance
15%
Spectroscopy
15%
Bismuth
15%
Ceramic superconductors
15%
Electric breakdown
14%
Annealing
14%
Metamaterials
14%
Solid solutions
14%
Polyethylenes
14%
Metals
13%
Critical currents
13%
Oxygen
12%
Perovskite
12%
Low density polyethylenes
12%
Fabrication
12%
Relaxation
12%
Acoustic impedance
12%
Activation energy
12%
Polarization
11%
Chemical Compounds
Dielectric Material
93%
Ceramic
73%
Dielectric Property
60%
Superconductor
60%
Microwave
55%
Permittivity
55%
Capacitor
52%
Dielectric Loss
33%
Sintering
31%
Dielectric Constant
31%
Glass
27%
Glass Ceramic
21%
Electrical Property
21%
Liquid Film
19%
Microstructure
19%
Composite Material
19%
Dielectric Relaxation
19%
Energy Storage
19%
Current Density
18%
Conductivity
16%
Electric Field
15%
Conductor
14%
Application
13%
Byproduct
12%
Energy
11%
Dioxygen
11%
Multilayer
11%
Strength
11%
Behavior as Electrode
11%
Annealing
10%
Leakage Current
10%
Heat Treatment
9%
Crystalline Texture
9%
Ambient Reaction Temperature
9%
Electric Field Effect
9%
Thermally Stimulated Depolarization Current
9%
Polarization
9%
Reaction Activation Energy
8%
Polycrystalline Solid
8%
Electrical Conductivity
8%
Time
8%
Dielectric Response
8%
Oxide
8%
Liquid
7%
Solid Solution
7%
Nanocomposite
7%
Crosslinking
7%
Magnetic Field
7%
Ceramic Processing
7%
Physics & Astronomy
ceramics
32%
microwaves
30%
permittivity
29%
dielectric properties
25%
critical current
23%
tapes
21%
sintering
16%
composite materials
15%
current density
14%
resonators
14%
silver
13%
temperature
13%
capacitors
13%
breakdown
12%
glass
12%
microstructure
12%
dielectric loss
12%
electric fields
11%
conductors
10%
characterization
10%
bismuth
10%
synthesis
9%
alkalies
9%
electrical resistivity
9%
textures
9%
tubes
9%
plasma generators
8%
conductivity
8%
molten carbonate fuel cells
8%
frequency ranges
8%
conduction
7%
zone melting
7%
microwave frequencies
7%
flux pinning
7%
flux density
7%
heating
7%
oxygen
6%
wire
6%
rings
6%
cavities
6%
room temperature
6%
electrical properties
6%
magnetic resonance
6%
antennas
6%
pressing
6%
thin films
5%
fabrication
5%
impedance
5%
zirconium oxides
5%
patch antennas
5%