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Lecture
Multipole Expansion for Radiation Fields
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Time-dependent quantum mechanics: semiclassical atom-radiation interactions
Explores semiclassical atom-radiation interactions, transition probabilities, Rabi oscillations, and spontaneous emission.
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Explores antennas with openings, equivalent problems, and radiation patterns from thin slits.
Multipole Expansion in Electrostatics and Magnetostatics
Covers the concept of multipole expansion in electrostatics and magnetostatics, discussing Maxwell equations and magnetic moments.
Radiation and Antennas: EPFL Networks
Explores the theory of networks, mutual coupling in radiation and antennas, and the use of metamaterials.
Electromagnetic Waves: Energy, Momentum, and Radiation Pressure
Explores electromagnetic waves' energy, momentum, and radiation pressure, including forces generated by radiation pressure and the transmission of waves through Earth's atmosphere.
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Antennas: Materials, Frequency, and Shapes
Explores antenna characteristics, materials, frequency dependence, and shapes, including the electromagnetic spectrum and classic antenna families.
Electromagnetic Potentials of Moving Charged Particles
Explores Liénard-Wiechert potentials and trajectories of moving charged particles in various spacetime scenarios.
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Explores radiation at antennas, reciprocity, directivity, and the Friis formula.
Radiation and Antennas: Orthogonal Herz Dipole Network
Covers the concept of radiation and antennas in orthogonal Herz dipole networks.
