Lectures related to Spatio-temporal Spectral Analysis: Dispersion and Envelopes

Covers spatio-temporal spectral analysis, dispersion relations, Fourier transforms, and group velocity.

Gravity Waves: Kinematic and Dynamic Boundary Conditions

Explores kinematic and dynamic boundary conditions, dispersion relation, and velocity differences in gravity waves.

Physical Meaning of Terms in Acoustic Waves

Explores the physical interpretation of terms in acoustic wave equations and the balance between wave steepening and linear dispersion.

Gravity Waves and Instabilities

Covers perturbation theory, compressible fluids, sound waves, instabilities, energy equations, and gravity waves.

Wave Patterns and Spectral Analysis

Explores wave patterns, Fourier transforms, group velocity, and Gaussian spectra in hydrodynamics.

Wave Propagation: Basics

Introduces the basics of wave propagation, covering longitudinal and transverse waves, superposition, reflection, d'Alembert equation, Fourier decomposition, and wave surfaces.

Plasma Waves: Properties & Frequencies

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

Quantum Mechanics: Wave-Particle Duality of Electrons

Covers the wave-particle duality of electrons and their behavior in quantum mechanics.

Waves in Fluids: Basic Properties and Equations

Covers the properties of waves in fluids, focusing on surface waves and their mathematical representation.

Plasma Instabilities: Microinstabilities in Magnetized Plasmas

Explores microinstabilities in magnetized plasmas, emphasizing drift waves and resonant wave-particle interactions.

Fundamentals of Electromagnetic Waves and Their Properties

Provides an overview of electromagnetic wave properties, including speed, refraction, frequency spectrum, and polarization.

Electromagnetic Waves in Plasma

Explores electromagnetic waves in plasma, covering dispersion, fluid equations, wave geometry, and light propagation in the ionosphere.

Guided Propagation: Modes and Wave Impedance

Explores guided propagation of electromagnetic waves, covering modes, wave impedance, dispersion, and distortion effects in different structures.

Plasma Instabilities: Microinstabilities in Magnetized Plasmas

Explores kinetic effects in electrostatic instabilities in magnetized plasmas, focusing on wave-particle resonances and finite Larmor radius effects.

Dispersion Relations: Understanding Particle Behavior

Covers dispersion relations for particles, including their mathematical expressions and applications in particle physics and electron microscopy.

Waves in Inhomogeneous Medium

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

Landauer Formalism: Coherence Lengths

Explores Landauer formalism and coherence lengths in energy transport in nanostructures.

Shallow Water Waves: Linearization and Disturbances

Discusses the linearization of shallow water wave equations and the impact of variable depth on wave propagation velocity.

Plasma Waves: Propagation and Modes

Explores the propagation and modes of plasma waves, including R- and L-waves, Langmuir waves, and Faraday rotation.

Waves in Fluids: Basic Properties and Equations

Covers the fundamental properties and equations of waves in fluids, focusing on surface waves and their mathematical descriptions.