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Lecture
Understanding Ideal Detectors: Theory and Applications
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Noise in Microelectronics
Explores the impact of noise in microelectronics on various circuit stages and devices.
Noise Sources in Optical Detectors: Analysis and Implications
Discusses various noise sources in optical detectors, including shot noise, thermal noise, and their implications on detection performance.
Electrical Metrology
Explores different types of noise in electrical systems and their impact on electronic devices.
Electrical Metrology
Explores electrical metrology, covering random variables, noise sources, and their impact on electronic devices.
Noise in Electronics: Fundamentals and Applications
Explores noise in electronics, covering average power, signal-to-noise ratio, deterministic and random signals, and noise amplification.
Physical Noise Analysis: High-Speed Photodetectors
Covers the physical noise analysis in high-speed photodetectors, focusing on signal-to-noise ratios and various noise sources affecting performance.
Understanding Noise in Electrical Systems
Explores noise sources, Fluctuation-Dissipation Theorem, amplifier noise, interference effects, and quantization error in electrical systems.
Strategies to Combat Noise Sources
Covers strategies to combat noise sources in electronics measurements and explores techniques to mitigate noise and improve measurement accuracy.
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.
Noise in Devices and Circuits
Explores different types of noise in devices and circuits, including interference noise, inherent noise, and random signals.
