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Lecture
Semiconductor Physics: Carrier Transport and Recombination
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Semiconductor Detectors: Principles and Applications
Explores semiconductor detectors for radiation detection, covering principles, applications, doping, p-n junctions, and detection mechanisms.
Understanding Semiconductor Behavior: Charge and Conductivity
Covers semiconductor behavior, focusing on energy levels, charge distributions, and conductivity in N-P-N structures and metal-semiconductor interfaces.
Semiconductors: Band Structure and Carrier Concentration
Explains band structure, density of states, Fermi distribution, and carrier densities.
Semiconductor Detectors: Principles and Applications
Explores semiconductor detectors for radiation detection, covering history, principles, charge carriers, doping, p-n junctions, and detection chain.
Semiconductor Band Structure
Explores semiconductor band structures, effective masses, and valence band complexities.
Semiconductor Devices II: Defects Engineering
Covers the analysis of measurements and defects engineering in semiconductor devices, including density of states and defect probing.
Carrier Statistics: Understanding Fermi Level Dynamics
Explores carrier statistics and the Fermi level's role in semiconductors.
Semiconductor Physics: Fundamentals and Applications
Delves into the physics of semiconductors, exploring their properties and applications in electronics and optoelectronics.
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.
Doping in Semiconductors: Energy Band Models
Covers the impact of doping on semiconductor properties and energy levels.
