Lectures related to E-M Wave Propagation in Materials: Loss-less vs. Lossy

Reflection and Refraction in Transparent Matter

Explores the laws of reflection and refraction in transparent matter, focusing on wave interaction with dielectric slabs.

Electromagnetic Waves: Basics and Applications

Explores the basics of optics, Maxwell's equations, wave propagation, and electromagnetic wave energy.

Waves in Inhomogeneous Medium

Explores waves in inhomogeneous media, covering initial and boundary conditions, numerical stability, eigen modes, and propagation principles.

Electromagnetic Waves: Maxwell's Equations

Explores optics basics, wave propagation, Maxwell's equations, polarization, and index of refraction.

Transmission Line Equations: Derivation and Losses

Explores the derivation of transmission line equations and the impact of losses.

Electromagnetic Waves: Basics and Equations

Explores electromagnetic wave basics, wave equations, solutions, and energy transport in different mediums.

Electromagnetic Waves and Laser Amplification

Explores laser light amplification, Maxwell's equations, electromagnetic waves, electron oscillation, absorption coefficients, and refractive indices.

Electromagnetic Waves in Materials: Reflection and Refraction

Explores electromagnetic waves in materials, focusing on reflection, refraction, and boundary conditions for transparent solids.

Electromagnetic waves

Explores the wave equation for electromagnetic fields, the propagation of electromagnetic waves, the fundamental velocity of light, and the concept of polarization.

Interaction of E-M Waves with Matter: Transmission, Absorption, Reflection

Explores how electromagnetic waves interact with matter, emphasizing transmission, absorption, and reflection.

Electromagnetic Waves: Theory & Applications

Explores electromagnetic waves, Maxwell's equations, circuits, and wave propagation through different media.

Electromagnetic Waves

Covers the theory of electromagnetic waves and provides a detailed understanding of wave propagation.

Guided Propagation: Theory and Examples

Discusses guided propagation for waves along a structure with invariant geometry and covers examples of TEM, TE, and TM modes.

Antennas: Characteristics and Applications

Explores antenna characteristics, families, Maxwell's equations application, reciprocity, wave propagation, directivity, and frequency features.

Versatile EM Wave Description

Summarizes EM chapters, emphasizing wave description, reflection laws, and light intensity calculations.

Electromagnetic Waves: Principles and Applications

Covers the principles of electromagnetic waves, including wave interference and diffraction.

Superposition and Interference in Electromagnetic Waves

Explores the superposition and interference of electromagnetic waves, discussing energy redistribution and standing waves.

Electromagnetic Waves: Wave Equation and Maxwell's Equations

Explores the wave equation for electromagnetic waves, Maxwell's predictions, and the importance of polarization in defining wave properties.

Electromagnetic Waves: General Properties and Applications

Explores electromagnetic waves, their properties, applications, and interconnected fields.

Plasma Waves: Properties & Frequencies

Explores the properties of plasma waves, focusing on dispersion, cut-off, resonance frequencies, and wave modes.