Single Photon Detection: Principles and Applications

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Physics of Photonic Semiconductor Devices: LEDs and Laser Diodes

Explores the limitations of blue LEDs' efficiency and the efficiency droop in laser diodes.

Optical Detectors: Principles and Applications

Introduces optical detectors, covering their properties, applications, and the design of cameras for various optical applications.

Quantum Structures: Band Gaps and Heterostructures

Covers the formation and properties of quantum wells and heterostructures in semiconductor materials.

Quantum Nanostructures: Growth and Fabrication

Covers epitaxy, quantum nanostructures growth, and quantized energy levels computation.

Semiconductor Laser Diodes

Explores electrical injection in semiconductors, transparency, laser oscillations, and edge-emitting laser diode design.

Light Emitting Diodes: Efficiency and Spectral Distribution

Explores light emission principles in LEDs, covering efficiency, spectral distribution, and stimulated emission importance.

Hot-Carrier Dynamics in Quantum Dots

Explores hot-carrier dynamics, impact ionization, carrier multiplication, quantum efficiency, energy transfer, and spin-exchange interactions in quantum dots.

Infrared Photodetectors: Quantum Well and Dot Technologies

Covers the design and operation of Quantum Well and Dot Infrared Photodetectors, highlighting their principles, applications, and performance characteristics.

Photovoltaic Devices and Light Emitting Diodes

Provides an overview of photovoltaic devices and light emitting diodes, focusing on their mechanisms, efficiency factors, and material considerations.

Detectors: Cameras and Performance

Explores imaging cameras' characteristics, spatial resolution, noise sources, and dynamic range for optimal performance in microscopy applications.