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Lecture
Quantum Efficiency: Photodiodes and Their Responsivity
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Understanding Ideal Detectors: Theory and Applications
Provides an overview of ideal detectors, focusing on their theory, noise limitations, and performance metrics in optical detection systems.
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Explores optical receiver design, photodetectors, quantum efficiency, absorption, and photodiode types in optical communication systems.
Basic Properties of Optical Detectors: Formalism and Characteristics
Discusses the fundamental properties and characteristics of optical detectors, including responsivity, quantum efficiency, and the impact of noise on detection limits.
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Noise Analysis in Optical Detectors: Key Examples
Covers examples of noise in optical detectors, including avalanche photodiodes and fluorescence correlation spectroscopy.
Noise in Electronics: Fundamentals and Applications
Explores noise in electronics, covering average power, signal-to-noise ratio, deterministic and random signals, and noise amplification.
Photodiodes: Electronics and Noise Analysis
Discusses the electronics, noise characteristics, and measurement circuits of photodiodes, including their applications in imaging systems.
PC1D Modellization: Spectral Response Analysis
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Photodiodes: Operation and Characteristics
Explores photodiode operation, characteristics, sensitivity, and noise analysis, emphasizing the impact of reverse voltage and circuit components.
Noise in Optical Receivers
Explores noise in optical receivers, covering shot noise, thermal noise, signal-to-noise ratio, and noise limits.
