Lectures related to Diffraction Basics IV: Bragg's Law and Rotations

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.

Electron Diffraction: Basics & Applications

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

Reciprocal Lattice and Diffraction

Explores reciprocal lattice in 2D systems, diffraction from lattice and atomic structures, emphasizing scattering and constructive interference.

Crystallography: Describing Periodic Structures

Covers crystallography, lattice structures, vectors, and diffraction patterns.

Exploring Synchrotron and XFEL Radiation: Applications and Techniques

Covers synchrotron and XFEL radiation, their applications, and experimental techniques across various scientific fields.

Introduction to X-rays and X-ray Sources

Covers the basics of x-rays, including generation, interactions, and applications in imaging and scattering techniques.

Synchrotrons and X-ray Techniques

Explores Laue diffraction principles, applications, and modern techniques in materials science and time-resolved experiments.

Electron Diffraction: Basics & Applications

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

Electron Diffraction: Basics & Applications

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

Diffraction Basics II: Rules and Applications

Explores the rules of interference and diffraction patterns, including Young's experiment and Bragg's law.

Multiple beam scattering in electron diffraction

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

Thermal Neutrons Diffraction

Explores the diffraction of thermal neutrons on a crystal and how to determine their temperature and diffraction maxima.

Beamlines: Secondary Optics Part 2

Explores the design and operation of Fresnel zone plates for focusing x-rays in synchrotrons and x-ray free-electron lasers.

Basic concepts of photons and x-rays

Explores the interaction of x-rays with matter, matching photon energy, and ionizing radiation.

Understanding Diffraction: X-rays vs Neutrons

Compares x-rays and neutrons for material structure analysis using diffraction patterns.

Atomic-scale Modeling: Interactive Exercises and Graded Assignments

Explores atomic-scale modeling through interactive exercises and graded assignments, covering crystallography, diffraction, defects, and regression models.

TEM imaging with diffraction contrast

Covers the basics of electron diffraction, diffraction theory, image formation, and X-ray diffraction techniques.

Crystal Structure: Diffraction and Bragg's Law

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

Principles of Lasers: Optical Tweezers

Explores the principles of lasers, including lasing transitions and optical tweezers, with applications in various fields.

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