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Lecture
Laser Systems and Atomic Transitions
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Related lectures (32)
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Mode Locking Techniques: Generating High Power Lasers
Explains mode locking techniques to achieve high peak power in lasers.
Laser Fundamentals: Operation and Applications
Provides an overview of laser fundamentals, including operation principles and various applications in engineering.
Laser Diodes: Relaxation Oscillations
Explores laser diodes' relaxation oscillations and their role in laser modulation, including random intensity noise effects and practical examples.
Laser Systems: Rate Equations
Explores rate equations in laser systems, semiconductor lasers, beam quality, and applications.
Quantum mechanical modification of Lorentz Model: Doppler Broadening
Covers laser basics, electron oscillator model, absorption, refractive index, Bohr model, causality, Kramers-Kronig relation, damping, quantum vs classical views, and Doppler broadening.
Laser Fundamentals and Applications
Explores laser fundamentals, historical perspective, and modern applications in engineering.
Laser Amplification: Stimulated Emission and Mode-Locking
Explores laser amplification through stimulated emission and the generation of short pulses using mode-locking techniques.
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: Operation and Applications
Covers the basics of laser operation, different laser systems, noise characteristics, and practical demonstrations in the laboratory.
Fiber Optics: Basics and Applications
Explores the basics of fiber optics, covering light propagation, fiber types, laser systems, and modern applications.
