Lecture
Laser Fundamentals and Applications
Related lectures (67)
Laser Systems
Covers the fundamental concepts of laser operation, including dispersion theory, gain and resonators, different types of laser systems, noise characteristics, optical fibers, ultrafast lasers, and nonlinear frequency conversion.
Laser Systems: Theory and Applications
Covers modules on laser systems, including basic operation, noise characteristics, and modern applications.
Laser Fundamentals: Coherence and Noise
Explores laser fundamentals, including coherence and noise characteristics, such as relaxation oscillations and shot noise.
Noise and beam steering
Explores laser fundamentals, noise sources, and beam steering technologies using optical fibers and ultrafast lasers.
Laser Systems: Theory and Modern Applications
Covers various modules related to laser systems, including the basics of laser operation, different types of lasers, noise characteristics, and applications in modern technology.
Amplitude and Phase Modulation
Covers the basics of laser operation, amplitude and phase modulation, and detectors.
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.
Laser Diodes: Relaxation Oscillations
Explores laser diodes' relaxation oscillations and their role in laser modulation, including random intensity noise effects and practical examples.
Shot Noise and Detectors
Explores shot noise, Johnson noise, and detectors in laser fundamentals and applications.
Stress-based Frequency Tuning
Explores stress-based frequency tuning in micro/nanomechanical devices, covering black body radiation, optical nonlinearity, NETD, and dynamic range.