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Lecture
Optical Properties of Semiconductors
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Related lectures (32)
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Optical Absorption: Understanding Semiconductor Behavior
Covers the principles of optical absorption in gases and semiconductors, detailing energy interactions and measurement techniques.
Semiconductor Properties: Band Structure and Carrier Statistics
Explores semiconductor band structure, carrier statistics, and impurities' impact on carrier activation and conductivity.
Semiconductor Band Structure
Explores semiconductor band structure, including Fourier transform, crystal structures, and bandgap systematics.
Light-Matter Interactions: Optical Detectors Overview
Provides an overview of light-matter interactions and their implications for optical detectors, including absorption, emission, and the characteristics of various semiconductor materials.
Semiconductor Physics: Occupancy Statistics and Band Filling
Explores occupancy statistics and band filling in semiconductors, covering intrinsic and doped cases.
Semiconductor Physics: Carrier Transport and Recombination
Explores semiconductor physics under high electric fields, discussing carrier transport, recombination processes, and the impact of injection.
Semiconductor Materials and Nanostructures
Covers the history of semiconductor materials, band structure, charge carriers, doping, electronic transport, optical properties, and applications.
Quantum Structures: Band Gaps and Heterostructures
Covers the formation and properties of quantum wells and heterostructures in semiconductor materials.
Optical Transitions in Semiconductors
Explores the K-Selection Rule, energetic requirements, and optical properties of semiconductors, including photon absorption and emission.
Doping in Semiconductors: Carrier Concentration and Ionization Energy
Discusses doping in semiconductors, focusing on carrier concentration, ionization energy, and the effects of temperature on electrical properties.
