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Lecture
Introduction to X-rays and X-ray Sources
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Introduction to X-rays and X-ray Sources: Part 2
Compares synchrotrons and X-ray free-electron lasers, emphasizing their brightness for scientific experiments.
Introduction to X-rays and X-ray Sources: Part 3
Explores synchrotron radiation, X-ray sources, scientific achievements, and recent highlights in synchrotron science.
X-ray Techniques and Applications
Explores synchrotrons, x-ray techniques, ptychography, and nondestructive chip architecture study using PyXL.
Basis of contrast for x-ray imaging
Explains linear attenuation coefficient, photon absorption, scattering, and typical attenuation coefficients for materials.
Beam-Matter Interactions: Emission Phenomena
Explores beam-matter interactions, focusing on emission phenomena from core electron ionization by X-Rays and electrons, and the competition between Auger and X-Rays emissions.
Neutrons vs X-rays
Compares neutrons and X-rays in diffraction analysis, focusing on their energy levels, interaction mechanisms, and penetrating capabilities.
X-ray Tomography: Principles and Applications
Explores x-ray tomography principles, including generation, interaction with matter, detection methods, and practical examples.
Microscopy Resolution: Understanding Rayleigh Criteria
Explains microscopy resolution using Abbe's theory and Rayleigh criterion.
Synchrotron Radiation
Covers the properties of synchrotron radiation, including its emission by relativistic particles and its effect on the beam through radiation damping.
Interactions of X-rays with Tissue II
Explores the interactions of x-rays with tissue, focusing on photoelectric effect and pair production.
