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Lecture
Synchrotrons and X-ray Techniques
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Related lectures (32)
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Electron Diffraction: Basics and Applications
Covers the fundamentals of electron diffraction and its applications in understanding crystal structures and symmetry, including lattice vectors, lattice planes, and dark-field imaging techniques.
Electron Diffraction: Basics & Applications
Explores electron diffraction fundamentals, crystal symmetry, and advanced techniques for materials analysis.
Crystal Structures: Miller Indices and Atom Arrangement
Explores crystal structures, Miller indices, X-ray diffraction, and solid microstructures.
Electron Diffraction: Basics & Applications
Explores electron diffraction basics, including Bragg's law, reciprocal lattice, and applications like crystal phase discrimination.
Crystal Structures: Arrangement and Diffraction
Explores crystal structures, unit cells, Miller indices, and X-ray diffraction principles.
Electron Diffraction: Basics & Applications
Covers the basics of electron diffraction, explaining contrast in TEM images and its applications in material analysis.
Solid State Characterization
Covers state-of-the-art methods for solid state characterization and emphasizes choosing the appropriate method for different materials.
Crystallography: Unit Cells, Lattices, and Reciprocal Lattice
Introduces crystallography basics, covering unit cells, lattices, and reciprocal lattice concepts.
Reciprocal Lattice and Diffraction
Explores reciprocal lattice in 2D systems, diffraction from lattice and atomic structures, emphasizing scattering and constructive interference.
Deviation from Bragg scattering
Covers electron diffraction theory, Bragg's law, reciprocal lattice, Ewald sphere, and weak-beam dark-field imaging.
