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Lecture
Laser Systems: Theory and Applications
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Laser Systems: Theory and Applications
Explores laser operation modules, including light-atom interaction, resonators, noise characteristics, and ultrafast lasers.
Laser Theory: Fundamentals and Applications
Explores laser fundamentals, historical development, and attenuation mechanisms.
Electron Oscillator Model: Lorentz Model
Introduces the electron oscillator model and its impact on electromagnetic wave propagation.
Semi-conductor laser and beam quality
Explores semi-conductor lasers, beam quality, direct vs. indirect bandgap, and M2 parameter significance.
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.
Laser Systems and Atomic Transitions
Covers laser operation, systems, atomic transitions, gain, and absorption coefficient in the Lorentz model.
Fiber laser and modelocking
Covers fiber lasers, including types, fabrication, absorption, resonators, and modelocking, with examples and comparisons.
Laser Fundamentals: Principles and Applications for Engineers
Covers the fundamentals of lasers, their historical development, and applications in engineering fields.
Laser as Light Source
Explores laser principles, types, and hazards, focusing on eye and skin safety measures.
Advanced Laser Systems
Explores gas lasers, solid-state lasers, and dye lasers for advanced laser systems.
