Lectures related to Photon Properties: Average Values and Uncertainties

Interferometry and Coherence

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

Photon Behavior: Wave-Particle Duality and Applications

Covers the dual nature of light as both a wave and a particle, exploring its implications and applications in quantum mechanics.

Fourier Transform and Schwartz Space

Explores the Fourier transform, Schwartz space, and Riemann-Lebesgue lemma in quantum physics.

Mach-Zehnder Interferometer

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

Radio Interferometry: The Universe At Radio Wavelengths

Explores radio interferometry, MeerKAT telescope, imaging vs. single measurement, and Fourier transform in radio astronomy.

Fourier Analysis: Applications and Inversion Formula

Explores Fourier analysis applications and the inversion formula in the context of periodicity and continuous functions.

Replica Symmetry Breaking: Random Energy Model

Explores Replica Symmetry Breaking in the Random Energy Model, focusing on configurations, variance, mean, and system behavior.

Applications of Quantum Science: Densities and Statistics

Covers the applications of densities and statistics in quantum science, focusing on binomial and Poisson distributions.

Statistics: Random Variables and Probability Density Functions

Introduces random variables, probability density functions, and Gaussian distribution in statistics.

Photon Picture of Electromagnetic Waves

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

Fourier Analysis: Fourier Series and Transform

Explores Fourier series, DFT, FFT, and their applications in signal processing and spectroscopy.

Signals & Systems I: Fourier Analysis

Explores Fourier analysis, including reconstruction formula, Fourier series, and spectrum interpretation.

Fourier Optics: Wavefront Analysis

Explores Fourier optics, diffraction principles, Fourier analysis, and the application of Fourier transform in optics.

Probability Distributions: Moments and Transformations

Covers moments computation and probability distribution transformations.

Random Numbers Visualization

Explains how constants affect the mean and variance of random numbers.

Statistics: Exploratory Data Analysis

Introduces statistics basics, including data analysis and probability theory, emphasizing central tendency, dispersion, and distribution shapes.

Fourier Transform: Concepts and Applications

Covers the Fourier transform, its properties, applications in signal processing, and differential equations, emphasizing the concept of derivatives becoming multiplications in the frequency domain.

Probabilities and Statistics: Key Theorems and Applications

Discusses key statistical concepts, including sampling dangers, inequalities, and the Central Limit Theorem, with practical examples and applications.

Numpy: Broadcasting, Operations, Comparisons, and Constants

Covers broadcasting, operations, comparisons, and numpy constants like pi, e, and infinity.

Stochastic Models for Communications: Continuous-Time Stochastic Processes - Stationarity

Covers the concept of stationarity in continuous-time stochastic processes and its implications in communication systems.