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Lecture
Electromagnetic Waves: Basics and Equations
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E-M Waves Interacting with Matter
Explores the interaction of electromagnetic waves with matter, including polarization and electric susceptibility.
Electromagnetic Waves: Wave Equation and Spectrum
Explains electromagnetic waves, wave equations, plane waves, and the electromagnetic spectrum.
Electromagnetic Waves and Laser Amplification
Explores laser light amplification, Maxwell's equations, electromagnetic waves, electron oscillation, absorption coefficients, and refractive indices.
Emission of Electromagnetic Waves: Accelerated Charges and Dipole Antennas
Explores the emission of electromagnetic waves by accelerated charges and dipole antennas.
Fundamentals of Electromagnetic Waves and Their Properties
Provides an overview of electromagnetic wave properties, including speed, refraction, frequency spectrum, and polarization.
Electromagnetic Waves in Plasmas
Covers the behavior of electromagnetic waves in non-magnetized plasmas and the simplification of equations for non-collisional plasmas.
Electromagnetic Waves: Properties and Polarization
Explores electromagnetic wave properties, polarization, and practical applications, emphasizing the relationship between electric field intensity and light intensity.
Electromagnetic Waves: Wave Equation and Description
Explores the wave equation for electromagnetic waves, Maxwell's derivation, the electromagnetic spectrum, and plane wave description.
Interaction of E-M Waves with Matter: Transmission, Absorption, Reflection
Explores how electromagnetic waves interact with matter, emphasizing transmission, absorption, and reflection.
Lorenz Model: interaction of light with bound electron
Explores laser technology, the Helmholtz wave equation, and the electron oscillator model.
