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Lecture
Band structure: Energy gaps and wave vectors
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Semiconductor Materials and Nanostructures
Covers the history of semiconductor materials, band structure, charge carriers, doping, electronic transport, optical properties, and applications.
Doping in Semiconductors: Energy Band Models
Covers the impact of doping on semiconductor properties and energy levels.
Semiconductor Band Structure
Explores the bandgap in semiconductors, focusing on the interaction between atoms in a crystal and the derivation of the secular equation.
Carrier Concentration: Extrinsic Semiconductors Overview
Covers the influence of doping on carrier concentrations in extrinsic semiconductors and the resulting shifts in the Fermi energy level.
Introduction to Semiconductors and Nanostructures
Introduces the course on semiconductors and nanostructures, covering objectives, evaluation, and the importance of these materials in technology.
Photochemistry I: Band Structure and Excitonic Absorption
Explores band structure representation, excitonic absorption, and quantum size effects.
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 Detectors
Explores the principles and operation of semiconductor detectors for radiation detection.
Semiconductor Band Structure
Explores semiconductor band structures, effective masses, and valence band complexities.
Generation and Recombination in Semiconductors
Covers the generation and recombination processes in semiconductors out of equilibrium, detailing their implications on semiconductor behavior.
