NPTEL : NOC:Photonic Integrated Circuit (Electrical Engineering)

Co-ordinators : Prof. Shankar Kumar Selvaraja


Lecture 1 - Photonic integrated circuits course introduction

Lecture 2 - Wave optics review

Lecture 3 - Electromagnetic theory review - 1

Lecture 4 - Electromagnetic theory review - 2

Lecture 5 - Photonic integrated circuits: an introduction

Lecture 6 - Photonic integrated circuits evolution

Lecture 7 - Photonic integrated circuit components - 1

Lecture 8 - Photonic integrated circuit components - 2

Lecture 9 - Dispersion

Lecture 10 - Phase velocity and Group velocity

Lecture 11 - Anisotropic medium and reciprocity

Lecture 12 - Polarisation in anisotropic medium

Lecture 13 - Optical axes

Lecture 14 - Waveguide structure

Lecture 15 - Waveguide modes - 1

Lecture 16 - Waveguide modes - 2

Lecture 17 - Field Equation

Lecture 18 - Guided modes in symmetric slab waveguides

Lecture 19 - Waveguide design - Boundary value formulation

Lecture 20 - Waveguide design - BVP solution

Lecture 21 - Waveguide design - Perturbation approach

Lecture 22 - Waveguide design - Effective Index method

Lecture 23 - Coupled mode theory - 1

Lecture 24 - Coupled mode theory - 2

Lecture 25 - Two-mode coupling

Lecture 26 - Co and counter propagating mode coupling

Lecture 27 - Phase matching

Lecture 28 - Directional coupler

Lecture 29 - Y-splitter

Lecture 30 - Multi-Mode Interference coupler

Lecture 31 - MZI

Lecture 32 - Micro-Ring Resonators

Lecture 33 - Light-chip coupling

Lecture 34 - End-fire coupling

Lecture 35 - Light Modulator introduction

Lecture 36 - Electro-Optic effect

Lecture 37 - Waveguide modulator

Lecture 38 - Optical transition in semiconductors

Lecture 39 - Transition rates

Lecture 40 - Absorption and gain in semiconductors

Lecture 41 - Semiconductor Light Emitting Diodes

Lecture 42 - Semiconductor Light Emitting Diodes (Continued...)

Lecture 43 - Semiconductor Lasers

Lecture 44 - Semiconductor photodetector

Lecture 45 - Semiconductor photodetector noise

Lecture 46 - Fabrication process - 1

Lecture 47 - Fabrication process - 2

Lecture 48 - PIC technology - Building a simple circuit

Lecture 49 - PIC for communication

Lecture 50 - PIC for sensing - 1

Lecture 51 - PIC for sensing - 2