Physics of Linear and Non-Linear Optical Waveguides the complete guide in 2020

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About Course

The Optical Waveguides is a physical structure that guides electromagnetic waves and it is the most important component of integrated optical circuits.

This Optical Waveguides course is intended to describe the theoretical basis of optical waveguides. In this course, we learn the principle of light guidance by understanding the light-matter interaction in the linear and nonlinear regimes. We will also discuss different optical components based on waveguides that are used extensively in communication and sensing. This course is mostly self-contained with very basic prerequisites like knowledge of elementary algebra and calculus. The course is prepared for the senior graduate and M.Sc. students having prior knowledge of electromagnetic theory. The course is also useful to the junior Ph.D. students and M-Tech students whose research interest is related to Photonics. T

INTENDED AUDIENCE:3rd year B. Sc Physics, M. Sc Physics, M-Tech (Applied Optics)

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What Will You Learn?

  • Learn Physics of Linear and Non-Linear Optical Waveguides

Course Content

Physics of Linear and Non-Linear Optical Waveguides

  • Introduction
    00:00
  • Lecture 14 : Material dispersion
    00:00
  • Lecture 15 : Material dispersion (Cont.)
    00:00
  • Lecture 16: Material dispersion (Cont.), Dispersion coefficient
    00:00
  • Lecture 17: Pulse broadening
    00:00
  • Lecture 18 : Pulse propagation in dispersive medium
    00:00
  • Lecture 19 : Pulse propagation in dispersive medium (Cont)
    00:00
  • Lecture 20 : Concept of modes
    00:00
  • Lecture 21 : TE and TM Modes
    00:00
  • Lecture 22 : TE and TM Modes (Cont)
    00:00
  • Lecture 23 : Modes in Slab waveguide
    00:00
  • Lecture 24 : Modes in Slab waveguide (Cont)
    00:00
  • Lecture 13 : Ray transit time (Cont.)
    00:00
  • Lecture 12 : Ray transit time
    00:00
  • Lecture 01 : Wave Equation, Maxwell’s equation, Plane wave
    00:00
  • Lecture 02 : EM wave in vacuum, Poynting vector, Maxwell’s equation in free space
    00:00
  • Lecture 03 : Maxwell’s equation in dielectric medium (Contd.)
    00:00
  • Lecture 04 : Total Internal reflection (TIR), Evanescent wave
    00:00
  • Lecture 05 : Step-index fiber (SIF), Light guidance in SIF
    00:00
  • Lecture 06 : Light guidance in SIF (Skew Ray), V-Parameter, Discrete Ray
    00:00
  • Lecture 07 : Cutoff wavelength, Fiber characteristics
    00:00
  • Lecture 08 : Fiber Loss, dB units, Dispersion
    00:00
  • Lecture 09 : Dispersion, Ray Path constant
    00:00
  • Lecture 10 : Ray path constant, Ray equation
    00:00
  • Lecture 11: Ray equation (cont.)
    00:00
  • Lecture 25 : Modes in Slab waveguide (Cont)
    00:00

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