Lecture

Gems Tutorial: Simulating Diffraction Patterns

Related lectures (32)

Electron Diffraction: Basics & Applications

Explores electron diffraction fundamentals, crystal symmetry, and advanced techniques for materials analysis.

Explores Transmission Electron Microscopy (TEM), covering diffraction patterns, image formation, and contrast mechanisms.

Electron Diffraction: Basics & Applications

Explores electron diffraction basics, including Bragg's law, reciprocal lattice, and applications like crystal phase discrimination.

Electron Diffraction: Basics & Applications

Covers the basics of electron diffraction, explaining contrast in TEM images and its applications in material analysis.

Bragg's law: Transmission Microscopy

Explains Bragg's law in Transmission Electron Microscopy, focusing on the relationship between wavelength, crystal lattice spacing, and diffraction angle.

Dynamical scattering: double diffraction

Delves into double diffraction in dynamical scattering, showcasing diffraction spots for forbidden planes and the Ewald sphere/reciprocal lattice.

Dynamical Scattering: Electron Diffraction

Explores dynamical scattering in electron diffraction, discussing challenges in interpreting diffraction patterns and applications in crystal defect imaging and phase discrimination.

Electron Microscopy: TEM

Explores Transmission Electron Microscopy (TEM) principles, contrast mechanisms, dislocation identification, and sample cleaning methods for accurate imaging.

Multiple beam scattering in electron diffraction

Explores multiple beam scattering in electron diffraction, focusing on zone axis diffraction patterns and theoretical approaches.

Transmission Electron Microscopy

Covers the principles and applications of Transmission Electron Microscopy, including imaging, diffraction, contrast mechanisms, and in situ techniques.

X-rays: From Discovery to Applications

Explores the historical perspective, properties, and applications of X-rays, including diffraction, atomic resolution, and spectral colors of elements.

Dynamical Scattering: Bend Contours

Explains the dynamical scattering effect of bend contours in TEM images of crystalline samples.

High Resolution TEM: Imaging and Contrast

Explores High Resolution TEM principles for atomic-level crystal imaging.

Electron Diffraction: Crystallographic Structure Analysis

Covers the theory and applications of electron diffraction in materials science.

Crystal Structure: Diffraction and Bragg's Law

Explores diffraction principles for observing atomic arrangements and determining crystal structures in solids.

Dynamical Scattering

Explores dynamical scattering in electron diffraction, discussing interdependent scattering and challenging interpretation of diffracted beams.

Deviation from Bragg scattering

Covers electron diffraction theory, Bragg's law, reciprocal lattice, Ewald sphere, and weak-beam dark-field imaging.

Electron Microscopy: TEM

Introduces the principles of transmission electron microscopy (TEM) and its practical aspects.

Dynamical Scattering: TEM Introduction

Introduces dynamical scattering in TEM, covering single and multiple elastic scattering, 2-beam diffraction, Bloch wave theory, and scattering intensity.

Transmission Electron Microscopy: Imaging and Diffraction

Explores the operation of a Transmission Electron Microscope, covering imaging modes and lens effects.