Covers the basics of transmission electron microscopy, including components, operation, imaging modes, diffraction analysis, and the interaction of high-energy electrons with matter.
Introduces the basics of transmission electron microscopy, covering electron diffraction, imaging modes, specimen preparation, electron properties, and high-resolution imaging.
Explores the components and operation of a Transmission Electron Microscope (TEM), including vacuum systems, electron sources, lenses, aberrations, and detectors.
Explores the components and operation of Transmission Electron Microscopy, covering vacuum systems, electron emission, lens aberrations, and detector types.
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.
Explores sample preparation techniques for TEM, such as cleaved wedge method and ultramicrotomy, highlighting their importance in obtaining high-quality samples.
Explores the fundamentals and applications of High-Resolution Transmission Electron Microscopy, focusing on image formation, contrast transfer function, and optical system corrections.
Explores dynamical scattering in electron diffraction, discussing challenges in interpreting diffraction patterns and applications in crystal defect imaging and phase discrimination.
