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Related lectures (32)
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Fermi Gas: Theory and Applications
Explores the Fermi gas model, energy levels, and Fermi surface in metals.
Alloys and Band Structure
Covers the properties of alloys, band structure, and density of states in materials like GaAs and Si.
Semiconductor Components: Band Diagram Interpretation
Covers the interpretation of band diagrams in semiconductor components, focusing on pn junction diodes and their behavior under applied voltage.
First-Principles Molecular Dynamics: Uncertainty Quantification
Explores first-principles molecular dynamics in studying complex heterostructures and strategies to reduce computational cost.
Photodetectors and LEDs
Explores the optical properties of TMDCs in optoelectronics and IT devices, focusing on band structure, excitons, and band gap tuning.
Photonic Crystals: Band Structure and Optomechanical Coupling
Explores photonic band structure, band gaps, and optomechanical coupling in photonic crystal cavities.
Charge Formation and Delocalization: Solitons, Polarons, and Interfaces
Explores charge carriers in organic semiconductors, including solitons, polarons, and band transport regimes.
Formation of Bands in Semiconductors: Understanding Silicon and Gallium Arsenide
Covers the formation of bands in semiconductors, focusing on silicon and gallium arsenide, and their electronic properties and crystalline structures.
Photodetectors and LEDs: Optoelectronics Overview
Explores the optical properties of TMDCs, band gap tuning, and emerging photoluminescence in Monolayer MoS₂, as well as the integration of photodetectors in IT systems.
Bloch Theorem and Kronig-Penney Model: Band Theory Insights
Covers the Bloch theorem and Kronig-Penney model, essential for understanding semiconductor band theory and electronic states in periodic potentials.
Graphene Properties and Applications
Explores graphene properties, band structure, electronics, and nanoscale phenomena like the Quantum Hall effect and the Casimir effect.
Simulation of 2D Field Effect Transistors
Covers the simulation of 2D Field Effect Transistors and the advantages of using Green's Function.
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