Skip to main content
Graph
Search
fr
en
Login
Search
All
Categories
Concepts
Courses
Lectures
MOOCs
People
Practice
Publications
Startups
Units
Show all results for
Home
Lecture
Doppler Broadening: Fundamentals and Applications
Graph Chatbot
Related lectures (31)
Previous
Page 1 of 4
Next
Laser Fundamentals: Gain and Absorption Mechanisms
Discusses the principles of laser operation, focusing on gain and absorption mechanisms essential for understanding light-matter interactions.
Laser Systems: Operation and Applications
Covers the basics of laser operation, different laser systems, noise characteristics, and practical demonstrations in the laboratory.
Laser Fundamentals: Principles and Applications for Engineers
Covers the fundamentals of lasers, their historical development, and applications in engineering fields.
Light-Matter Interactions: Laser History and Quantum Theory
Explores light-matter interactions, laser history, and quantum theory development.
Laser Fundamentals: Operation and Applications
Provides an overview of laser fundamentals, including operation principles and various applications in engineering.
Laser Fundamentals and Applications
Covers the basics of laser technology, different laser systems, and advanced laser applications.
Einstein Coefficients and Amplification
Explores Einstein coefficients, population inversion, and light amplification in laser technology.
Rate equations
Covers the basics of laser operation, including light-atom interaction and resonator design, discussing the quantum vs classical view of the atom and stimulated emission.
Semiconductor Lasers: Rate Equations and Steady State Solutions
Delves into semiconductor laser rate equations, steady state solutions, dynamic behavior, and applications in optical communications.
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.
