Atomic Clocks: Optical Frequency Standards

About
Privacy
Disclaimer

Graph Chatbot

Related lectures (32)

Explores pulsed laser sources, mode-locking, and frequency metrology, emphasizing ultra-fast pulses and optical atomic clocks.

Laser Fundamentals: Gain and Absorption Mechanisms

Discusses the principles of laser operation, focusing on gain and absorption mechanisms essential for understanding light-matter interactions.

Introduction to Ultrafast Optics

Introduces the fundamentals of ultrafast optics, covering light pulses, dispersion, mode-locked lasers, and chirped pulse amplification.

Laser Fundamentals and Applications

Explores laser fundamentals, historical perspective, and modern applications in engineering.

Laser Fundamentals: Operation and Applications

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

Autocorrelators

Covers the principles and applications of autocorrelators in laser technology.

Gas lasers: theory and modern applications

Explores gas lasers theory, gain saturation, and laser applications in modern technologies.

Laser Amplification: Stimulated Emission and Mode-Locking

Explores laser amplification through stimulated emission and the generation of short pulses using mode-locking techniques.

Mode Locking Techniques: Generating High Power Lasers

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

Autocorrelators: pulse measurement methods

Explores the principles and applications of autocorrelators in measuring laser pulse profiles.

Laser Systems: Theory and Applications

Covers the basic principles of laser operation, types of laser systems, noise characteristics, optical fibers, ultrafast lasers, and modern applications.

Laser Diodes: Relaxation Oscillations

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

Page 2 of 2