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Lecture
Quantifying Synchrotron Radiation: Part 1
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Quantifying Synchrotron Radiation: Coherence and Applications
Explores coherence in synchrotron radiation, types of coherence, and the impact of emittance on coherent fraction.
X-ray Techniques and Applications
Explores synchrotrons, x-ray lasers, and phase-contrast tomography for soft matter imaging.
Wigglers and Undulators: Tuning Photon Energy and Polarization
Covers tuning photon energy, selecting desired energy, varying polarization, APPLE undulators, and rapid switching.
Synchrotrons and X-ray Techniques
Explains insertion devices like wigglers and undulators in synchrotrons and x-ray lasers, comparing source types based on brilliance and photon energy.
Wigglers and Undulators: Techniques and Applications
Explores wigglers and undulators in synchrotrons and x-ray lasers, focusing on damping wigglers and their thermal management.
Radiation Sources: Overview
Explores radiation sources, including fast electrons, heavy charged particles, and neutrons, discussing their applications and characteristics.
Beamlines: Primary Optics
Explores techniques for harmonic suppression in synchrotrons and x-ray lasers.
Diffraction Basics IV: Bragg's Law and Rotations
Explains Bragg's law, rotations in space, and the Ewald sphere for diffraction.
Quantifying Synchrotron Radiation: Part 3
Explains single-electron emittance, factors determining emittance, and the diffraction limit in synchrotron radiation.
Synchrotrons and X-ray Techniques
Explores synchrotrons, X-ray techniques, Hough transform, Radon transform, and back projections in X-ray tomography.
