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Lecture
Thermal Detectors: Understanding Thermopiles and Their Applications
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Understanding Noise in Electrical Systems
Explores noise sources, Fluctuation-Dissipation Theorem, amplifier noise, interference effects, and quantization error in electrical systems.
Noise Formalism in Photodetectors: Understanding Detection Limits
Discusses the formalism of noise in photodetectors, focusing on detection limits and the relationship between input power and output current.
Noise in Electronics: Fundamentals and Applications
Explores noise in electronics, covering average power, signal-to-noise ratio, deterministic and random signals, and noise amplification.
Coherent Detection: Signal and Local Oscillator Interference
Explores coherent detection in optical systems, highlighting the interference between the signal and local oscillator.
Thermopiles: Sensitivity and Noise Ratio
Explores thermopiles' sensitivity, noise ratio, thermal insulation, and measurement techniques in micro sensors.
Electrical Metrology: Noise and Signal Analysis
Explores electrical metrology, emphasizing noise and signal analysis, covering topics such as charges, currents, voltages, and various noise sources.
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.
CCD Cameras: Signal-to-Noise Analysis
Covers the signal-to-noise ratio in CCD cameras and techniques to optimize image capture quality.
Hardware Technologies and Applications
Explores hardware technologies, quantum electronics, cryogenic systems, quantum computing, and ADC architectures.
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.
