Mott transition

E111761

The Mott transition is a metal–insulator transition in strongly correlated electron systems, where electron–electron interactions drive a material from conducting to insulating behavior without a change in its crystal structure.

All labels observed (4)

Label Occurrences
Metal-Insulator Transitions 2
Mott transition canonical 2
Brinkman–Rice transition 1

How this entity was disambiguated

Statements (50)

Predicate Object
instanceOf metal–insulator transition
phase transition
characterizedBy change from metallic to insulating behavior
change in optical conductivity spectrum
critical endpoint in the temperature–pressure phase diagram
first-order behavior at finite temperature in many materials
opening of a charge gap at the Fermi level
possible coexistence region of metal and insulator phases
spectral weight transfer between Hubbard bands
suppression of electrical conductivity
differsFrom Anderson localization
surface form: Anderson localization transition

band insulator transition
doesNotRequire change in crystal structure
drivenBy carrier doping
chemical substitution
increase of U/W ratio
pressure variation
strain
strong electron correlations
temperature change
field condensed matter physics
strongly correlated electron systems
impact important for Mottronics applications
relevant for correlated electron devices
relevant for understanding high-temperature superconductivity
involves Coulomb repulsion
Hubbard bands
Mott gap
bandwidth W
electron localization
electron–electron interactions
on-site Coulomb interaction U
namedAfter Nevill Mott
surface form: Nevill Francis Mott
observedIn V2O3
cuprate materials
organic charge-transfer salts
rare-earth nickelates
transition metal oxides
ultracold atoms in optical lattices
vanadium dioxide
relatedConcept Mott transition self-linksurface differs
surface form: Brinkman–Rice transition

Hubbard model half-filling
Mott insulator
Mott transition self-linksurface differs
surface form: Mott–Hubbard transition
temperatureDependence can occur at finite temperature
terminates at a critical endpoint
theoreticalFramework Dynamical Mean-Field Theory
Gutzwiller approximation
Hubbard model
slave-boson methods

How these facts were elicited

Referenced by (6)

Full triples — surface form annotated when it differs from this entity's canonical label.

Nevill Mott knownFor Mott transition
Nevill Mott notableWork Mott transition
this entity surface form: Metal-Insulator Transitions
Nevill notableConcept Mott transition
subject surface form: Nevill Francis Mott
Mott transition relatedConcept Mott transition self-linksurface differs
this entity surface form: Mott–Hubbard transition
Mott transition relatedConcept Mott transition self-linksurface differs
this entity surface form: Brinkman–Rice transition
Mott notableWork Mott transition
subject surface form: Nevill Francis Mott
this entity surface form: Metal-Insulator Transitions