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Lecture
X-ray Spectroscopy: Fundamentals and Applications
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Related lectures (32)
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Synchrotrons and X-ray Techniques
Explores synchrotrons, x-ray techniques, and electron microscopy applications.
X-ray Spectroscopies: Fundamentals
Explores inelastic mean free path, universal curve, electron spin, and spin-orbit coupling in X-ray spectroscopies.
Spin-orbit interaction and topological materials
Explores spin-orbit interaction, topological materials, spin interference, and spin polarization in quantum physics.
Wigglers and Undulators: Tuning Photon Energy and Polarization
Covers tuning photon energy, selecting desired energy, varying polarization, APPLE undulators, and rapid switching.
Spectroscopy: Electronic Properties and Techniques
Explores energy spectroscopy techniques like XPS and UPS, Auger spectroscopy, surface sensitivity, and graphene band structure.
Photoelectron Spectroscopies: Techniques and Applications
Explores the photoelectric effect and various photoemission spectroscopies for chemical analysis and electronic structure determination.
Analytical Electron Microscopy: Spectroscopy and Microanalysis
Explores Analytical Electron Microscopy techniques for chemical analysis using EELS and EDX.
A Voyage Through Time: History of Optics and Scientific Method
Explores the historical development of optics, the scientific method, and the arrow of time, highlighting major paradigm shifts and the cultural differences between religion and science.
Enzymatic Catalysis & Inhibition
Explores enzymatic catalysis mechanisms and inhibition dynamics in catalysis and polymerization.
X-ray Spectroscopies: Dipole Transitions
Explores dipole transitions, symmetry rules, HOMOS, LUMOS, and Fermi's Golden Rule in X-ray spectroscopies.
