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Lecture
Electronic Band Structure: Kronig-Penney Potential
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Effective Masses in Semiconductor Physics
Covers effective masses in semiconductors, focusing on energy bands and their implications for materials like silicon and gallium arsenide.
Band Structure: Energy Levels and Fermi Sphere
Explains energy levels, Fermi sphere, and periodic potentials in different dimensions.
Intrinsic Semiconductors: Thermal Generation and Carrier Concentration
Covers intrinsic semiconductors, focusing on thermal generation and carrier concentration calculations.
Understanding Semiconductor Equilibrium: Concepts and Applications
Discusses semiconductor physics, focusing on equilibrium states and energy band structures in homogeneous and inhomogeneous semiconductors.
Band Structure: 3D to OD
Explores band structure in various dimensions, quantum confinement effects, density of states, and Fermi quantities in 3D objects.
Semiconductors: Band Structure and Carrier Concentration
Explains band structure, density of states, Fermi distribution, and carrier densities.
Basic Semiconductor Properties
Explores semiconductor fundamentals, including band structure, carrier concentration, and Fermi levels.
Crystal Structure: Real and Reciprocal Lattice
Explores crystal structure, real and reciprocal lattice, and Miller indices in the context of wave-particle duality and Schrodinger equation.
Doping in Semiconductors: Energy Band Models
Covers the impact of doping on semiconductor properties and energy levels.
Fermi Gas: Theory and Applications
Explores the Fermi gas model, energy levels, and Fermi surface in metals.
