Lecture 1 - Introduction to Microwave and Optical Metamaterials - I
Lecture 2 - Introduction to Microwave and Optical Metamaterials - II
Lecture 3 - Applications of Optical Metamaterials and Classifications of Metamaterials
Lecture 4 - Classifications of Metamaterials - II
Lecture 5 - Overview of Metamaterials Technology
Lecture 6 - Basic Electromagnetic Theory - I
Lecture 7 - Basic Electromagnetic Theory - II
Lecture 8 - Electromagnetic Properties of Materials
Lecture 9 - Electromagnetic Waves in Materials
Lecture 10 - Electromagnetic Waves in Periodic Medium
Lecture 11 - Polarization of Electromagnetic Waves
Lecture 12 - Fresnel Equations
Lecture 13 - Absorption and Dispersion of Electromagnetic Waves
Lecture 14 - Scattering of Electromagnetic Waves
Lecture 15 - Concept Behind Metamaterials
Lecture 16 - Opical Properties of Metals - I
Lecture 17 - Opical Properties of Metal and Dielectrics
Lecture 18 - Opical Properties of Dielectrics
Lecture 19 - Mixing Rules and Effective Medium Theories
Lecture 20 - Effective Medium Theory - II
Lecture 21 - Overview of Electric Metamaterials
Lecture 22 - Periodic Array of Metallic Wires - I
Lecture 23 - Periodic Array of Metallic Wires - II
Lecture 24 - Inhomogeneous and Chiral Metamaterials
Lecture 25 - Types of Engineered Metamaterials and Applications
Lecture 26 - Split Ring Resonators
Lecture 27 - Optical Magnetic Elements
Lecture 28 - Analytical model of magnetic nanostrips
Lecture 29 - High-Permittivity Route to Artificial Magnetism
Lecture 30 - Modelling of Microwave devices using metamaterials
Lecture 31 - 2D Model of Microwave Antenna with One Layer Metamaterial
Lecture 32 - Miniaturized Design of Microwave Antenna
Lecture 33 - Far-field Focusing for Microwave Antennas
Lecture 34 - Metamaterial-Inspired Antennas - I
Lecture 35 - Metamaterial-Inspired Antennas - II
Lecture 36 - Brief Overview of Negative Index Metamaterials
Lecture 37 - Negative Index Metamaterials - I
Lecture 38 - Negative Index Metamaterials - II
Lecture 39 - Super Resolution with Meta-Lenses
Lecture 40 - Applications of Composite Near-Field Superlens
Lecture 41 - Fundamentals of Hyperbolic Metamaterials
Lecture 42 - Hyberbolic Metamaterials for Super-resolution Hyperlens Imaging
Lecture 43 - Hyperbolic metamaterials for nanoscale optical cavities
Lecture 44 - Metamaterials Based Nanoscale Optical Cavities and Active Hyperbolic Metamaterials
Lecture 45 - Applications of Active Hyperbolic Metamaterials
Lecture 46 - Active Hyperbolic Metamaterials for Various Spectral Band
Lecture 47 - Principles of Transformational Electromagnetics
Lecture 48 - Examples and Applications of Transformational Electromagnetics
Lecture 49 - Invisibility Cloaks
Lecture 50 - Carpet Cloaking
Lecture 51 - Realizing Electromagnetic Cloaking using Metamaterials
Lecture 52 - Transformation Electromagnetics for Antenna Applications and Stealth Technology
Lecture 53 - Tunable metamaterials and Magnetically tunable metamaterials
Lecture 54 - Electrically Tunable Metamaterials
Lecture 55 - Thermally Tunable Metamaterials
Lecture 56 - Tunable Metamaterials-based Sensors
Lecture 57 - Metamaterial Fabrication Techniques
Lecture 58 - Microwave Metamaterial Patterning Methods
Lecture 59 - Optical Metamaterial Patterning Methods
Lecture 60 - Metamaterial Fabrication Technique: Pattern Transfer
Lecture 61 - Characterization Methods of Metamaterials
