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Lecture
X-ray Tomography: Techniques and Applications
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Related lectures (31)
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X-ray Tomography: Principles and Applications
Explores x-ray tomography principles, including generation, interaction with matter, detection methods, and practical examples.
Introduction to X-rays and X-ray Sources
Covers the basics of x-rays, including generation, interactions, and applications in imaging and scattering techniques.
X-ray Techniques and Applications
Explores synchrotrons, x-ray lasers, and phase-contrast tomography for soft matter imaging.
Principle of X-ray Detection: Scintillation
Explains the principle of x-ray detection using scintillation crystals and discusses the characteristics of materials like CdWO4 and NaI:Tl.
Enhancing and Shaping Radiation from High-Energy Particles with Nanophotonics
Delves into enhancing and tailoring radiation from high-energy particles using nanophotonic structures.
Basic concepts of photons and x-rays
Explores the interaction of x-rays with matter, matching photon energy, and ionizing radiation.
Interactions of X-rays with Tissue II
Explores the interactions of x-rays with tissue, focusing on photoelectric effect and pair production.
X-ray Tomography Practical: Introduction
Covers practical aspects of X-ray tomography, including photon interaction and sample intensity measurement.
Basis of contrast for x-ray imaging
Explains linear attenuation coefficient, photon absorption, scattering, and typical attenuation coefficients for materials.
Image Processing II: Reconstruction from Projections
Explores image reconstruction in computer tomography from projections and absorption laws.
