Keyphrases
Relaxor
44%
Relaxor Ferroelectrics
40%
PbTiO3
34%
Aging
29%
Single Crystal
28%
Dielectric
21%
Bias Field
18%
Antiferroelectric
16%
Ferroelectric State
16%
Dielectric Permittivity
16%
Low Temperature
15%
DC Bias
13%
Field-induced
13%
Dielectric Response
13%
Ferroelectric Phase Transition
12%
Glassy State
11%
Dielectric Properties
10%
Temperature Effect
10%
PMN-PT
10%
Barkhausen Noise
10%
Temperature Range
10%
Permittivity
10%
Dielectric Constant
10%
Spin Glass
10%
Ferroelectric Transition
9%
Broken Inversion Symmetry
9%
Metal Filament
9%
Porous Media
9%
Ultrathin
9%
Superlattices
9%
Capacitors
9%
Ferroelectric Phase
9%
Phase Diagram
8%
Dielectric Susceptibility
8%
Ferroelectric Properties
8%
Threshold Field
7%
Antiferroelectric Film
7%
Non-ergodic
7%
Sol-gel Process
7%
Polar Nanodomains
7%
Nonlinearity
6%
Room Temperature
6%
Artificial Dielectric
6%
Nanolayers
6%
Superconducting Transition
6%
DC Field
6%
Deuterated Potassium Dihydrogen Phosphate
6%
Temporal Effects
6%
Field Effect
6%
Sodium Nitrite
6%
Material Science
Ferroelectric Material
100%
Dielectric Material
59%
Permittivity
36%
Single Crystal
20%
Superlattice
12%
Spin Glass
11%
Ferroelectricity
11%
Dielectric Property
11%
Barkhausen Noise
10%
Thin Films
9%
Capacitor
9%
Film
9%
Magnesium
9%
Niobate
9%
Sol-Gel
7%
Colossal Magnetoresistance
6%
Molecular Beam Epitaxy
6%
Potassium
6%
Domain Wall
5%
Piezoelectricity
5%
Engineering
Dielectrics
73%
Relaxor Ferroelectrics
33%
Granulocyte
20%
Bias Field
14%
Temperature Dependence
9%
Superlattice
9%
Temperature Range
9%
Low-Temperature
8%
Thin Films
8%
Applied Field
7%
Aging Effect
6%
Nanolayers
6%
Field Emission
6%
Energy Storage
6%
Nonequilibrium
6%
Barrier Height
6%
Induced Electric Field
5%
Domain Wall
5%
Titanate
5%
Energy Engineering
5%