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Lecture
Understanding Ideal Detectors: Theory and Applications
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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 Analysis in Optical Detectors: Key Examples
Covers examples of noise in optical detectors, including avalanche photodiodes and fluorescence correlation spectroscopy.
Signal Processing: Filtering and Noise Reduction
Explores signal-to-noise ratio, filtering noisy signals, and power spectral density for noise reduction in signal processing.
RIN, Shot Noise, Circuit Noise - Examples
Explores laser operation basics, shot noise, and photodetectors' noise characteristics, emphasizing the importance of signal-to-noise ratio in signal detection.
Ideal Detectors: Characteristics and Applications
Covers the characteristics and applications of ideal detectors in optical detection, focusing on photonic and thermal detectors.
Detectors: Cameras and Performance
Explores imaging cameras' characteristics, spatial resolution, noise sources, and dynamic range for optimal performance in microscopy applications.
Optical Amplification: SNR and Noise Figure
Explores optical amplification effects on SNR and noise figure in photonic systems.
Noise and beam steering
Explores laser fundamentals, noise sources, and beam steering technologies using optical fibers and ultrafast lasers.
CCD Cameras: Dark Current and Noise Analysis
Covers noise sources in CCD cameras, focusing on dark current and its impact on performance.
CCD Cameras: Signal-to-Noise Analysis
Covers the signal-to-noise ratio in CCD cameras and techniques to optimize image capture quality.
