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Lecture
Quantifying Synchrotron Radiation: Coherence and Applications
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Synchrotron Radiation
Covers the properties of synchrotron radiation, including its emission by relativistic particles and its effect on the beam through radiation damping.
X-ray Magnetic Imaging Techniques
Covers x-ray magnetic imaging techniques, including XMCD, XRMS, and x-ray optics, for studying magnetic materials and domains.
Undulators: Theoretical Principles and Spectral Characteristics
Explores the theoretical principles and spectral characteristics of undulators in synchrotrons and x-ray free-electron lasers.
Large Scale Facilities: Synchrotron and Free Electron Laser
Explores synchrotrons, free electron lasers, electron acceleration, radiation production, and ultrafast magnetization dynamics.
Zernike Phase-Contrast Imaging
Explores Zernike phase-contrast imaging, providing high-resolution images with high contrast for biological systems.
Beamlines: Secondary Optics
Explores advanced techniques in secondary optics for synchrotrons and x-ray lasers.
Wigglers and Undulators: Tuning Photon Energy and Polarization
Covers tuning photon energy, selecting desired energy, varying polarization, APPLE undulators, and rapid switching.
Introduction to X-rays and X-ray Sources: Part 3
Explores synchrotron radiation, X-ray sources, scientific achievements, and recent highlights in synchrotron science.
Quantifying Synchrotron Radiation: Part 1
Explores spectral flux, bandwidth, emittance, and brightness of synchrotron radiation, tracing its evolution since Röntgen.
Synchrotrons and X-ray Free-Electron Lasers: Techniques and Applications
Explores lensless imaging and coherent X-ray diffractive imaging techniques and applications, including high-resolution 3-D imaging of nanocrystal strain.
