Engineering
Low-Temperature
100%
Fermi Energy
100%
Electron System
100%
Electronic State
66%
Thermal Energy
66%
Ground State
66%
Energy Engineering
33%
Experimental Result
33%
Similarities
33%
Band Gap Energy
33%
Energy Gap
33%
Narrowband
33%
Temperature Limit
33%
Temperature Behavior
33%
Heat Capacity
33%
Superconductivity
33%
Free Electron
33%
Paramagnetism
33%
Selected Number
33%
Electron Effective Mass
33%
Polarization Energy
33%
Coulomb Interaction
33%
Physics
Strongly Correlated Electron Systems
100%
Conduction Electron
100%
Fermion
60%
Ground State
40%
Physics
20%
Superconductivity
20%
Condensed Matter Physics
20%
Quasiparticle
20%
Density of States
20%
Spin Polarization
20%
Kinetic Energy
20%
Free Electron
20%
Specific Heat
20%
Magnetic Permeability
20%
Kondo Effect
20%
Energy Band
20%
Metalloid
20%
Electron Mass
20%
Paramagnetism
20%
Narrowband
20%
Material Science
Density
100%
Materials Class
100%
Physical Property
66%
Thermal Property
33%
Electrical Resistivity
33%
Electronic Property
33%
Superconductivity
33%
Magnetic Susceptibility
33%
Semimetals
33%
Spin Polarization
33%
Chemistry
Conduction Electron
100%
Density of State
60%
Ground State
40%
Band Gap
40%
Electronic Property
20%
Magnetic Susceptibility
20%
Quasiparticle
20%
Superconductivity
20%
Kinetic Energy
20%
Spin Polarization
20%
Condensed-Matter Physics
20%
Metalloid
20%
Kondo Effect
20%
Heat Capacity
20%
Free Electron
20%
Paramagnetism
20%
Keyphrases
Insulator Material
100%
Localized Spins
28%
Polarization Energy
14%
Pauli Paramagnetism
14%
Temperature-dependent Physical Properties
14%
Organizing Principles
14%
Effective Electron Mass
14%
Electrical Conduction
14%
Electron Kinetic Energy
14%
Crystallographic Unit Cell
14%
Low Temperature Limit
14%
CeCu2Si2
14%