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Lecture
Optical Transitions in Semiconductors
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Doping in Semiconductors: Energy Band Models
Covers the impact of doping on semiconductor properties and energy levels.
Semiconductor Junctions: Electric Fields and Currents
Covers semiconductor junctions, focusing on electric fields, current flow, and diode characteristics.
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.
Semiconductor Band Structure
Explores semiconductor band structure, including Fourier transform, crystal structures, and bandgap systematics.
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.
Semiconductor Physics: Transistors and Diodes
Explores semiconductor physics, emphasizing transistors and diodes' behavior and operation.
Photochemistry I: Band Structure and Excitonic Absorption
Explores band structure representation, excitonic absorption, and quantum size effects.
Optical Transitions in Semiconductors
Explores the K-Selection Rule, energetic requirements, and optical properties of semiconductors, including photon absorption and emission.
Introduction to Semiconductors and Nanostructures
Introduces the course on semiconductors and nanostructures, covering objectives, evaluation, and the importance of these materials in technology.
Doping in Semiconductors: Carrier Concentration and Ionization Energy
Discusses doping in semiconductors, focusing on carrier concentration, ionization energy, and the effects of temperature on electrical properties.
