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Lecture
Optics: Electronic Materials
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Related lectures (32)
Electrical Conductivity of Metals: Semiconductor Properties
Explores electrical conductivity of metals, semiconductor properties, and energy bands.
Intrinsic Semiconductors: Thermal Generation and Carrier Concentration
Covers intrinsic semiconductors, focusing on thermal generation and carrier concentration calculations.
Effective Masses in Semiconductor Physics
Covers effective masses in semiconductors, focusing on energy bands and their implications for materials like silicon and gallium arsenide.
Photovoltaics: fundamentals and efficiency
Explores the fundamentals and efficiency of photovoltaics, covering topics such as the photovoltaic effect, bandgap optimization, and efficiency limits.
Charge Carriers in Organic Electronics: Solitons and Polarons
Discusses charge carriers in organic materials, focusing on solitons, polarons, and their implications for charge transport and device performance.
Efficient Visible Light Emitters
Explores the historical evolution and challenges of efficient visible light emitters, focusing on LED technology and the quest for 100%+ efficiency.
Optical Absorption: Understanding Semiconductor Behavior
Covers the principles of optical absorption in gases and semiconductors, detailing energy interactions and measurement techniques.
Semiconductor Detectors
Explores the principles and operation of semiconductor detectors for radiation detection.
Semiconductor Physics: Fundamentals and Applications
Delves into the physics of semiconductors, exploring their properties and applications in electronics and optoelectronics.
Drift Currents and Conductivity: Poisson's Equation in Semiconductors
Covers drift currents, conductivity, and the effects of scattering in semiconductors.
Amorphous Materials
Covers amorphous materials, focusing on glass, common types, atomic structure, and the effect of hydrogen.
Solar Cells: Working Principles
Covers the working principles of solar cells and the challenges in improving efficiency.
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