Lectures related to Refraction, Reflection, and Absorption

Analytical Electron Microscopy: Spectroscopy and Microanalysis

Explores Analytical Electron Microscopy techniques for chemical analysis using EELS and EDX.

Explores the interaction of x-rays with matter, matching photon energy, and ionizing radiation.

Film Thickness Determination: XPS Analysis

Explains film thickness determination using XPS and AES techniques, covering principles, instrumentation, and analytical comparisons.

Radiative Transfer Equation

Covers the Radiative Transfer Equation in participating media and discusses concepts like absorption, scattering, and emission.

Interaction of E-M Waves with Matter: Transmission, Absorption, Reflection

Explores how electromagnetic waves interact with matter, emphasizing transmission, absorption, and reflection.

Radiation and Absorption: Fundamentals

Covers the fundamental concepts related to radiation, including emission, Kirchoff's law, and the absorption factor.

Optical Properties: Materials and Light

Explores the optical properties of materials, including reflection, refraction, absorption, and transmission, as well as the behavior of light in optical fibers.

Beam-Matter Interactions

Explores beam-matter interactions, thermal effects, chemical effects, atomic displacements, and matter emission mechanisms in electron microscopy.

Fluorescence in Microscopy: Important Concepts

Introduces fundamental concepts of fluorescence in microscopy, covering terms like excitation and emission spectra, Stokes shift, quantum efficiency, brightness, and photobleaching.

Light-Material Interaction: Fundamentals

Covers the basics of light-material interaction, including reflection, refraction, absorption, luminescence, and diffusion.

X-ray Tomography: Techniques and Applications

Explores x-ray tomography techniques, covering sources, optics, detectors, and sample considerations.

Chemical analysis: X-Ray photoelectron spectrometry

Covers X-Ray Photoelectron Spectrometry (XPS), a surface analysis technique developed by Kai Siegbahn, explaining its components, mechanism, and analysis methods.

Optical absorption measurements

Covers the theory, implementation, and applications of optical absorption measurements, including techniques, limitations, and practical examples.

Interactions of X-rays with Tissue II

Explores the interactions of x-rays with tissue, focusing on photoelectric effect and pair production.

Light Materials Interaction

Explores the interaction between light and materials, covering properties of light and absorption mechanisms.

Fluorescence Spectroscopy: Principles and Applications

Explores fluorescence spectroscopy principles, applications in photomedicine, and biological fluorophores.

Physics Demonstrations: Mechanics and Fluid Dynamics

Demonstrates physics experiments on mechanics, fluid dynamics, sound waves, and materials properties.

Radiative Heat Transfer: Analytical & Monte Carlo Solutions

Explores analytical and Monte Carlo solutions for radiative heat transfer in isotropically scattering media at radiative equilibrium between gray and diffuse walls.

Radiative Transfer in Participating Media: Key Concepts and Equations

Discusses radiative transfer in participating media, focusing on key concepts like attenuation, extinction coefficients, and the radiative transfer equation.

Applications of Optical Spectroscopy in Photomedicine

Explores optical spectroscopy in photomedicine, emphasizing fluorescence principles, biological fluorophores, and fluorescence lifetime measurements.