25123: Fundamentals of Optics and Photonics
Course Name: Fundamentals of Optics and Photonics
Course Number: 25123
Prerequisite(s): 25733 (Electromagnetics)
Co-requisite(s): -
Units: 3
Level: Undergraduate
Last Revision: Winter 2020

Description
The major objective of this course is to explore the underlying physical concepts and fundamentals of optics and photonics. Although the major focus of the course is on fundamental aspects, an up-to-date approach to the discipline with emphasis on modern applications is followed. The underlying quantum-mechanical nature of light is kept in mind from the onset, and the major role of atomic scattering in the interaction of light and matter is not forgotten despite sticking to the classical methodology.
 
Syllabus:
  • Introduction: Photonics vs. Electronics
  • Ray Optics, Wave Optics, and Beam Optics
  • Spatial Frequency and Fourier Optics
  • Elements of Electromagnetic Optics and Polarization
  • Photonic Integration
  • Resonator Optics
  • Statistical Optics
  • Photon Optics
  • Light Matter Interaction
References:
  • B. E. A. Saleh, and M. C. Teich, Fundamentals of Photonics, John Wiley and Sons, 2007
  • Keigo Iizuka, Engineering Optics, Springer, 4th Edition, 2019
  • L. Novotny and B. Hecht, Principles of nano-optics, Cambridge University Press, 2018


 
Last Update: 2024-05-06