Lectures related to Guided Propagation: Theory and Examples

Guided Propagation: Vector Components and Boundary Conditions

Explores guided propagation modes, vector components, boundary conditions, dispersion diagrams, and electromagnetic field reconstruction.

Reflection and Refraction in Transparent Matter

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

Waves in Inhomogeneous Medium

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

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

Explores electromagnetic wave propagation in materials, including loss-less and lossy mediums, optical constants, and dispersion in glasses.

Telegrapher's Equations: Solutions and Examples

Explores time-domain solutions for lossless lines and examples of wave propagation behavior.

Superposition and Interference in Electromagnetic Waves

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

Infinite Line: Non-linear Current/Voltage

Discusses the response of an infinite line to a voltage square.

Rectangular Waveguides: TE and TM Modes

Covers guided propagation in rectangular waveguides for TE and TM modes.

Transmission Line Equations: Derivation and Losses

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

Rayleigh Waves: Properties and Applications

Covers the properties and applications of Rayleigh waves, including equations of motion, dispersion, and power flow.

Reflection at Discontinuities: Transmission Line Terminations

Covers the reflection coefficient of loads in transmission lines and the generation of reflected voltages and currents.

Uniqueness of Electromagnetic Field

Delves into the conditions for the uniqueness of solutions to Maxwell's equations in different media and sources, emphasizing the role of boundary conditions and material losses.

Propagation Modes in Waveguides

Explores the propagation modes in waveguides, discussing TE and TM modes, field distribution, and Bessel functions.

Rectangular Waveguides: TE Modes

Covers TE modes in rectangular waveguides, including boundary conditions and dispersion diagrams.

Transmission Line Theory: Wave Propagation

Explores transmission line theory, telegrapher's equations, and frequency-domain solutions for lossless and lossy lines.

Rectangular Waveguides: TM and TE Modes

Explains the propagation modes in rectangular waveguides for TM and TE modes.

Electromagnetic Waves in Plasmas

Covers the behavior of electromagnetic waves in non-magnetized plasmas and the simplification of equations for non-collisional plasmas.

Transmission Line Theory: Frequency Solutions

Explores frequency solutions for transmission lines, including voltage reflection coefficients and the Blumer index.

Rectangular waveguides: TM Modes

Covers the propagation modes in rectangular waveguides, focusing on TM modes and discussing basic equations and solutions.

Versatile EM Wave Description

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