Keyphrases
Nanostructured Manganite Films
100%
Magnetocaloric Effect
100%
Manganites
66%
Magnetic Refrigeration
50%
Magnetic Transition
33%
Thermal Properties
16%
Modernity
16%
Expected Outcomes
16%
Alkaline Earth
16%
Magnetron
16%
National Events
16%
Sputtering Method
16%
Compression Technologies
16%
Expansion Technology
16%
Magnetic Field
16%
Unconventional Gas
16%
Thermal Changes
16%
Challenges for the Future
16%
Trivalent Rare Earths
16%
Technological Applications
16%
Gas Expansion
16%
Powder Systems
16%
Colossal Magnetoresistance
16%
Applied Magnetic Field
16%
Thermal Response
16%
Divalent
16%
Curie Temperature
16%
Magnetic Properties
16%
Mixed Valence
16%
Phase Diagram
16%
Microscopic Mechanism
16%
Efficient System
16%
Transport Phase
16%
Refrigeration
16%
Monocrystalline
16%
Mixed Valence Oxides
16%
Gas Compression
16%
High Thermals
16%
International Database
16%
Inhomogeneous Material
16%
Environmentally Friendly Technologies
16%
Rare Earth Atom
16%
Energy Saving
16%
Scopus
16%
Metal-insulator Transition
16%
External Magnetic Field
16%
Magnetic Phases
16%
Energy Consumption
16%
Magnetic Oxides
16%
Engineering
Thin Films
100%
Magnetic Transition
100%
External Magnetic Field
50%
Magnetron
50%
Applied Magnetic Field
50%
Potential Application
50%
Magnetic Field
50%
Monocrystalline
50%
Final Result
50%
Optimum Condition
50%
Material Science
Film
100%
Magnetocaloric Effect
100%
Oxide Compound
33%
Thin Films
33%
Inhomogeneous Material
16%
Magnetic Property
16%
Curie Temperature
16%
Colossal Magnetoresistance
16%
Thermal Property
16%