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Lecture
Intrinsic Semiconductors: Thermal Generation and Carrier Concentration
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Semiconductors: Band Structure and Carrier Concentration
Explains band structure, density of states, Fermi distribution, and carrier densities.
Doping in Semiconductors: Energy Band Models
Covers the impact of doping on semiconductor properties and energy levels.
Density of States in Semiconductor Devices
Explores density of states in semiconductor devices, covering electron gas, energy bands, Fermi-Dirac distribution, and band structures.
Basic Semiconductor Properties
Explores semiconductor fundamentals, including band structure, carrier concentration, and Fermi levels.
Semiconductor Detectors
Explores the principles and operation of semiconductor detectors for radiation detection.
Semiconductors: Equilibrium Properties and Charge Dynamics
Covers the equilibrium properties of semiconductors, focusing on charge dynamics and the influence of temperature on electron-hole generation.
Effective Masses in Semiconductor Physics
Covers effective masses in semiconductors, focusing on energy bands and their implications for materials like silicon and gallium arsenide.
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.
Carrier Statistics: Understanding Fermi Level Dynamics
Explores carrier statistics and the Fermi level's role in semiconductors.
Continuity Equations in Semiconductor Physics
Covers continuity equations in semiconductor physics, focusing on charge conservation and the behavior of charge carriers in non-equilibrium conditions.
