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Photochemistry I: Electronic Transitions and Band Theory
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Related lectures (32)
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Dispersion Relationships: Band Structures and Density of States
Discusses dispersion relationships, band structures, and density of states in real crystals and semiconductors.
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Semiconductor Devices II: Defects Engineering
Covers the analysis of measurements and defects engineering in semiconductor devices, including density of states and defect probing.
Fermi Levels: Temperature Effects on Semiconductor Behavior
Covers the impact of temperature on Fermi levels in doped semiconductors, analyzing behavior at 300 K, 600 K, and 77 K.
Semiconductors: Basic Properties
Explores the basic properties of semiconductors, including conductivity, impurities, band gaps, and crystal structures.
Electronic Materials: Optical Properties
Explores electronic and optic properties of materials with lattice structures, including energy bands and band gaps.
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.
Indirect Bandgap: Optical Detectors and Phonons
Covers the principles of optical detectors in semiconductors with an indirect bandgap, focusing on energy and momentum conservation during electron transitions.
Band Structure: 3D to OD
Explores band structure in various dimensions, quantum confinement effects, density of states, and Fermi quantities in 3D objects.
Electronic Band Structure: Kronig-Penney Potential
Explores electronic band structure, material properties, and density of states in periodic potentials, including energy levels and wavefunctions.
