Coherence, Amplification of Radiation in Maxwell's Equations, Gaussiam Light Beams, Orbital Angular Momentum of Light Beams, Fabry-perot Resonator, Optical Resonators, Quantum Description Of Light-matter Interaction, Rate Equations of Atomic Medium, Gain Saturation, The Laser, Multi-mode Lasing, Ultrashort Laser Pules And Mode-licking. Learning Outcomes# At The End of The Course, The Student Will Be Able# 1. to Critically Read Updated Literature. 2. to Design Simple Experiments With Laser Systems. 3. to Calculate Physical Properties of Lasers and Their Emitted Radiation.

Faculty: Physics
|Undergraduate Studies |Graduate Studies

Pre-required courses

(114210 - Optics and 115203 - Quantum Physics 1) or (115203 - Quantum Physics 1 and 336533 - Fund. of Biomed. Optics Photonics)


Course with no extra credit

116003 - Laser Physics


Semestrial Information