Optical and Electronic Shot Noise: Signal to Noise Analysis

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Optical Detection: Internal Gain Analysis

Covers internal gain in optical detection systems, focusing on avalanche photodiodes and the calculations for optimal gain and signal-to-noise ratio.

Electrical Metrology

Explores different types of noise in electrical systems and their impact on electronic devices.

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.

Noise in Microelectronics

Explores the impact of noise in microelectronics on various circuit stages and 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.

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.

Electrical Metrology

Explores electrical metrology, covering random variables, noise sources, and their impact on electronic devices.

Coherent Detection: Signal and Local Oscillator Interference

Explores coherent detection in optical systems, highlighting the interference between the signal and local oscillator.

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.

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.