Physics
Utilization
100%
Thin Films
100%
Titanium
100%
Magnetron Sputtering
100%
Zirconium
100%
Metal
40%
Crystallinity
40%
Temperature
20%
Ratios
20%
Deposition
20%
Atoms
20%
Insulators
20%
Oxygen
20%
Transmission Electron Microscopy
20%
X Ray Diffraction
20%
Responses
20%
Capacitor
20%
Cycles
20%
High Resolution
20%
Cooling Systems
20%
Lead
20%
Grazing Incidence
20%
Antiferroelectricity
20%
Chemistry
Liquid Film
100%
Application
100%
Titanium
100%
Magnetron Sputtering
100%
Zirconia
100%
Metal
28%
Crystallinity
28%
X-Ray Diffraction
14%
Reaction Temperature
14%
Nonconductor
14%
Polarization
14%
Resistance
14%
Cooling
14%
Dioxygen
14%
Argon
14%
High-Resolution Transmission Electron Microscopy
14%
Capacitor
14%
Engineering
Thin Films
100%
Applications
100%
Titanium
100%
High Power Impulse Magnetron Sputtering
100%
Crystallinity
28%
Characteristics
14%
Properties
14%
Cycles
14%
High Resolution
14%
Ray Diffraction
14%
Obtains
14%
Transmissions
14%
Promising Candidate
14%
Temperature Change
14%
Cooling System
14%
Metal-Insulator-Metal
14%
Endurance Test
14%
Adiabatic Temperature
14%
Fatigue Resistance
14%
Material Science
Thin Films
100%
High Power Impulse Magnetron Sputtering
100%
Metal
28%
Durability
14%
Temperature
14%
Film
14%
Capacitor
14%
X-Ray Diffraction
14%
Argon
14%
Fatigue of Materials
14%