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Lecture
Semiconductor Materials: Charges and Energy Levels
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Semiconductors and Charge Carriers
Introduces semiconductor physics, covering materials, charge density, energy levels, doping, transport, and conductivity.
Semiconductor Band Structure
Explores semiconductor band structure, including Fourier transform, crystal structures, and bandgap systematics.
Intrinsic Semiconductors: Thermal Generation and Carrier Concentration
Covers intrinsic semiconductors, focusing on thermal generation and carrier concentration calculations.
Doping in Semiconductors: Energy Band Models
Covers the impact of doping on semiconductor properties and energy levels.
Semiconductor Components: N+/N Junction Analysis
Covers the analysis of N+/N junctions in semiconductor components, focusing on diffusion and drift currents and their equilibrium.
Semiconductor Devices II: Defects Engineering
Covers the analysis of measurements and defects engineering in semiconductor devices, including density of states and defect probing.
Quantum Dots: Basic Concepts and Applications
Covers the concept of quantum dots, their similarities to atoms, and potential applications in quantum computation.
Strain and Heteroepitaxy
Explores the impact of strain on semiconductor band structures, epitaxy, critical thickness, and defect formation, emphasizing the role of Hooke's law and elasticity theory.
Density of States in Semiconductor Devices
Explores density of states in semiconductor devices, covering electron gas, energy bands, Fermi-Dirac distribution, and band structures.
Semiconductor Band Structure
Explores the bandgap in semiconductors, focusing on the interaction between atoms in a crystal and the derivation of the secular equation.
