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Hubbard model
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Related lectures (11)
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Density Functional Theory and Tight-Binding Models
Explores modeling multilayer 2D materials, tight-binding models, and electrical conductivity in materials, emphasizing the importance of symmetries and reduced models.
Moiré Flatland: Graphene and Twisted Bilayer Graphene
Explores the properties of graphene and twisted bilayer graphene, including the magic angle phenomenon and unconventional superconductivity.
Solid State Physics II: Tight-binding Model
Covers the tight-binding model for 1D atomic chains and its impact on energy levels.
Tight-binding Approximation: 3D Lattice of Na Atoms
Explores the tight-binding approximation for a 3D lattice of Na atoms and its impact on the Fermi surface and band structure.
Solid State Physics II: Band Structures and Fermi Surfaces
Summarizes key concepts in Solid State Physics II, including band structures, Fermi surfaces, tight-binding approximation, and insulators vs. metals.
Hubbard Models: Density Matrix Formalism
Covers the Hubbard models and density matrix formalism in quantum mechanics.
Untitled
Interactions: Goodenough-Kanamori-Anderson Rules
Explains the rules for interactions in materials, including semi-covalent exchange and insulators.
Band-Like Transport in Organic Semiconductors
Covers band-like transport, polaronic transport, charge transfer mechanisms, and temperature dependence in organic semiconductors.
Quantum Hall Effect
Explores the Quantum Hall Effect, covering semi-classical equations, Landau levels, Nobel Prize discoveries, and energy quantization.
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