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Lecture
Laser Systems and Atomic Transitions
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Related lectures (32)
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Ultrafast nonlinear optics
Covers second and third-order nonlinear processes, ultrashort pulse characterization techniques, and optical parametric amplification.
Laser Fundamentals: Principles and Applications for Engineers
Covers the fundamentals of lasers, their historical development, and applications in engineering fields.
Mode Locking Techniques: Generating High Power Lasers
Explains mode locking techniques to achieve high peak power in lasers.
Active-Passive Modelocking: Fundamentals and Applications
Covers the fundamentals of active and passive modelocking in 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.
Laser Systems: Rate Equations
Explores rate equations in laser systems, semiconductor lasers, beam quality, and applications.
Laser Diodes: Relaxation Oscillations
Explores laser diodes' relaxation oscillations and their role in laser modulation, including random intensity noise effects and practical examples.
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.
Nonlinear Optics III: Light-Matter Interaction
Covers pulsed optics, coherent spectroscopy, and nonlinear optical effects.
Chirped Pulse Amplification: Ultrashort Laser Pulses
Explores chirped pulse amplification for ultrashort laser pulses and the significance of Carrier-Envelope Phase stabilization.
