Lectures related to Semiconductor Lasers: Beam Quality

Explores semi-conductor lasers, beam quality, direct vs. indirect bandgap, and M2 parameter significance.

Laser Fundamentals: Applications and Technologies

Provides an overview of laser fundamentals, applications, and technologies relevant to engineering and manufacturing processes.

Beam Quality and Fiber Coupling in Lasers

Discusses beam quality in lasers, focusing on the beam parameter product and its applications in fiber coupling and modulation speed.

Laser as Light Source

Explores laser principles, types, and hazards, focusing on eye and skin safety measures.

Laser Systems: Rate Equations

Explores rate equations in laser systems, semiconductor lasers, beam quality, and applications.

Laser Types and Properties

Explores laser principles, properties, types, and dangers of high brightness beams, as well as resonator configurations and pumping methods.

Fiber Coupling with High Power Laser Diodes

Covers the design and transitions of high power laser diodes.

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.

Fiber coupling and relaxation oscillations

Explores fiber coupling and relaxation oscillations in laser diodes, focusing on modulating laser speed and changing beam shape.

Laser Diodes: Relaxation Oscillations

Explores laser diodes' relaxation oscillations and their role in laser modulation, including random intensity noise effects and practical examples.

Doppler Broadened Absorption: Resonators, 3 Level System

Explores Doppler broadening, resonators, and the 3 level system in laser operation.

Gain saturation

Explores gain saturation in laser systems and the dynamics of atoms in different energy levels, emphasizing the balance between pumping and emission processes.

Laser Fundamentals: Operation and Applications

Provides an overview of laser fundamentals, including operation principles and various applications in engineering.

Rate equations, gain saturation, different lasers

Explores rate equations, gain saturation, and various laser types and applications.

History of lasers: Lorentz model for atom/light interaction

Explores the history of lasers and the Lorentz model for atom-light interaction.

Solid State and Semiconductor Laser

Covers the theory and applications of solid-state and semiconductor lasers, including different types of lasers and their efficiency.

Mode Locking Techniques: Generating High Power Lasers

Explains mode locking techniques to achieve high peak power in lasers.

Ultrafast Laser Beam Steering

Explores ultrafast lasers, beam steering technologies, chirped pulses, and mode-locking for high laser powers.

Laser Systems: Theory and Applications

Explores laser operation modules, including light-atom interaction, resonators, noise characteristics, and ultrafast lasers.