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Quantum phase transitions in low-dimensional optical lattices
M.F. Di Liberto
Sub Condensed-Matter Theory, Statistical and Computational Physics
Theoretical Physics
Research output
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Thesis
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Doctoral thesis 1 (Research UU / Graduation UU)
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Keyphrases
Optical Lattice
100%
Quantum Phase Transition
100%
Fermionic
40%
One Dimension
40%
Potential Barrier
40%
Hubbard Model
40%
Deep Well
40%
Half-filling
40%
Shallow Wells
40%
Experimental Facility
20%
Bosonic
20%
Fermi Liquid Theory
20%
Many-body
20%
Mean-field Theory
20%
Excited States
20%
Two Dimensional
20%
Phase Diagram
20%
Excitation Spectrum
20%
Phase Transition
20%
Mott Insulator
20%
Chern number
20%
Exactly Solvable Models
20%
Eigenstates
20%
Symmetry Breaking
20%
Effective Model
20%
Fermionic Systems
20%
Bosons
20%
Particle Density
20%
Fermions
20%
Dimerization
20%
Collective Behavior
20%
Loop Current
20%
Charge Degree of Freedom
20%
Band Model
20%
Peierls
20%
Metallic State
20%
Single-particle Excitations
20%
Physical Behavior
20%
Specific Value
20%
Time Effect
20%
Spatial Dimension
20%
Topological Excitations
20%
Hamburg
20%
Two-site
20%
Lattice Potentials
20%
Phase Coherence
20%
Non-vanishing
20%
Time-varying Magnetic Field
20%
Density Difference
20%
Two-dimensional Lattice
20%
P Orbital
20%
Time Reversal
20%
Electronic System
20%
Cuprates
20%
Cuprate Superconductors
20%
SU(2) Symmetry
20%
Hopping Mechanism
20%
Correlated Hopping
20%
Deep Potential
20%
Lieb Lattice
20%
Optical Potential
20%
Checkerboard Pattern
20%
Bosonic Systems
20%
Time-of-flight Imaging
20%
Elementary Unit
20%
Large Detuning
20%
Pseudogap Regime
20%
Body Behaviors
20%
Lattice Geometry
20%
Four-frequency
20%
Engineering
One Dimensional
100%
Two Dimensional
66%
Driving Force
33%
Excitation Spectrum
33%
Spatial Dimension
33%
Degree of Freedom
33%
Dimensionality
33%
Time-of-Flight
33%
Band Model
33%
Current Loop
33%
Physical Behavior
33%
Magnetic Field
33%
Eigenvector
33%
Dimerization
33%
Particle Density
33%
Excited State
33%
Superconductor
33%
Tunnel
33%
Chemistry
Optical Lattice
100%
Hubbard Model
40%
Potential Barrier
40%
Excited State
20%
Dimerization
20%
Mean-Field Theory
20%
Superconductor
20%
Particle Density
20%
Optical Potential
20%
Magnetic Field
20%
Fermi Liquid
20%
electronics
20%
Phase Diagrams
20%
dimer
20%
Physics
Optical Lattice
100%
Potential Barrier
40%
Cuprates
40%
Fermi Liquid
20%
Fermion
20%
Phase Coherence
20%
Magnetic Field
20%
Phase Diagrams
20%
Broken Symmetry
20%
Excitation
20%
Dimerization
20%
Degree of Freedom
20%
Material Science
Density
100%
Cuprate
100%
Dimerization
50%
Superconducting Material
50%
Fermi Liquid
50%