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Lecture
Tomography: Principles and Applications
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Radiation-Matter Interaction: Electron Microscopy Introduction
Covers the principles and techniques of electron microscopy, focusing on the interaction between radiation and matter.
Microscopic Analyses & Electron Sources
Covers microscopic analyses using optical and electron microscopy, as well as electron sources.
STEM and EDX
Covers STEM and EDX principles, X-ray generation, quantification methods, and analytical TEM applications.
Electron Microscopy: Instrumentation in Life Sciences
Explores electron microscopy instrumentation in life sciences, covering techniques, instrument limitations, components, specimen preparation, beam interactions, and contrast functions.
Introduction and Interaction with Radiation-Matter
Introduces electron microscopy, covering practical organization, sample preparation, radiation-matter interaction, and detector mechanisms.
Fourier Transforms in Tomography: Inversion Techniques
Covers the application of Fourier transforms in tomography, focusing on the Radon transform and its inversion techniques.
Atomic Resolution Techniques
Covers synchrotrons, x-ray lasers, and atomic resolution techniques like Cryo-EM and scanning tunneling microscopy.
Microscopy: General Aspects and Techniques
Covers general aspects and techniques of microscopy, emphasizing resolution importance and exploring scanning tunneling and atomic force microscopy.
High Resolution TEM: Imaging and Contrast
Explores High Resolution TEM principles for atomic-level crystal imaging.
Beam-Matter Interactions
Explores beam-matter interactions, thermal effects, chemical effects, atomic displacements, and matter emission mechanisms in electron microscopy.
