Moiré Flatland: Graphene and Twisted Bilayer Graphene

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Electron Localization in Incommensurately Stacked Layers of 2D Materials

Explores electron localization in incommensurately stacked 2D materials, including twisted bilayer graphene and transition metal di-chalcogenides.

Graphene: Quantum Properties and Nanoribbons

Explores graphene's quantum conductance, special electronic properties, nanoribbon fabrication, and edge effects.

Graphene Properties and Applications

Explores graphene properties, band structure, electronics, and nanoscale phenomena like the Quantum Hall effect and the Casimir effect.

Quantum Simulation: Optical Lattices

Explores analog quantum simulation using optical lattices to control kinetic energy and create complex band structures.

Quantum Mechanics: Free Carrier Concentration and Maxwell Distribution

Discusses quantum mechanics principles, focusing on free carrier concentration and Maxwell distribution in metals and gases.

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.

Proximitized Materials: From Spintronics to Majorana States

Explores the transition from spintronics to Majorana states in proximitized materials, focusing on magnetic proximity and topological superconductivity detection.

Engineering Carbon Nanostructures

Explores the engineering of intrinsic π-electron magnetism in carbon nanostructures, focusing on inducing magnetism in graphene and nanographenes through sublattice imbalance and topological frustration.

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.

Density of States in Semiconductor Devices

Explores density of states in semiconductor devices, covering electron gas, energy bands, Fermi-Dirac distribution, and band structures.