Lectures related to Interference in Young's Experiment: Intensity and Polarization

Explores interference in polarized light and explains the absence of interference with perpendicular polarization.

Interference Patterns with Polarized Light

Explores interference patterns with polarized light passing through a double-slit setup.

Electromagnetic Optics: Maxwell's Equations and Wave Propagation

Explores electromagnetic optics, Maxwell's equations, wave propagation, properties of light waves, and quantum aspects of light.

Interferometry and Coherence

Explores coherence and interferometry principles, including statistical optics, autocorrelation functions, and optical coherence tomography applications.

Photon Picture of Electromagnetic Waves

Explores the photon concept in electromagnetic waves, including energy, momentum, emission by charges, coherence length, and the electromagnetic spectrum.

Interference of Light Waves: Double Slit Experiment

Explores the interference of light waves in a double slit experiment.

Mach-Zehnder Interferometer

Explores the Mach-Zehnder interferometer, density matrices, and detection probabilities in quantum systems.

Interference of Light: Polarization and Intensity

Explores the interference of light with polarizing filters and the resulting intensity.

Two-Slit Experiment: Polarization Effects

Explores the impact of polarizers on the intensity in a two-slit experiment.

Nonlinear optics: 3rd order response, coherence in optics

Explores nonlinear optics, atomic polarisability, and coherence in optics, emphasizing the fixed phase relationship between waves.

Double Slit Experiment and Quantum Information Processing

Explores the historical development of quantum mechanics and information theory, focusing on the double slit experiment and quantum phenomena.

Interference: Wave Superposition

Explores wave interference, superposition, coherence, and interference patterns from nearby sources.

Electromagnetic Waves: Reflection, Refraction, and Interference

Explores electromagnetic waves, wave optics, interference, and diffraction phenomena in experimental physics II.

Photonics Fundamentals

Explores biophotonics fundamentals, covering photon generation, polarization, momentum, interference, streams, and shot noise.

Polarization Effects: E-M Waves Interacting with Matter

Explores polarization effects in e-m waves interacting with matter, including monochromatic waves, velocities in metals, decomposition, birefringence, and stress analysis.

Quantum Mechanics: Double-Slit Experiment

Covers the postulates of Quantum Mechanics, the double-slit experiment, and the path integral formulation's significance in understanding quantum phenomena.

Semiconductor Physics: Band Formation and Experiments

Covers semiconductor band formation and presents experiments demonstrating charge carrier behavior and wave-particle duality in electrons.

Interference Phenomenon: Double Slit Experiment

Explores the interference phenomenon in a double slit experiment to determine maximum positions and separation, analyzing the impact of factors like wavelength and slit width.

Quantum Mechanics: Path Integral Formulation

Covers the path integral formulation of Quantum Mechanics, emphasizing its advantages and connection with statistical mechanics.

Interference and diffraction

Explores electromagnetic wave properties, wave interference, and diffraction phenomena in light.