Lectures related to Wigglers and Undulators: Techniques and Applications

Large Scale Facilities: Synchrotron and Free Electron Laser

Explores synchrotrons, free electron lasers, electron acceleration, radiation production, and ultrafast magnetization dynamics.

Synchrotron Radiation

Covers the properties of synchrotron radiation, including its emission by relativistic particles and its effect on the beam through radiation damping.

Synchrotrons and XFELs Overview

Gives an overview of synchrotrons, XFELs, and their differences in photon and electron energies.

Bending Magnets and Magnet Lattice: Part 2

Explores radiated power, energy storage, RF power supply, and RF bunching in synchrotrons, emphasizing the role of RF cavities.

Bending Magnets and Magnet Lattice

Explores the design and function of bending magnets, quadrupoles, and sextupoles in synchrotrons and x-ray lasers.

Undulators: Theoretical Principles and Spectral Characteristics

Explores the theoretical principles and spectral characteristics of undulators in synchrotrons and x-ray free-electron lasers.

Quantifying Synchrotron Radiation: Part 1

Explores spectral flux, bandwidth, emittance, and brightness of synchrotron radiation, tracing its evolution since Röntgen.

Free electron lasers

Explores free electron lasers, covering light sources, brilliance, X-ray sources, FEL modes, and electron beam requirements.

Wigglers and Undulators: Tuning Photon Energy and Polarization

Covers tuning photon energy, selecting desired energy, varying polarization, APPLE undulators, and rapid switching.

Beamlines: Primary Optics

Explores techniques for harmonic suppression in synchrotrons and x-ray lasers.

Synchrotrons and X-ray Techniques

Explains insertion devices like wigglers and undulators in synchrotrons and x-ray lasers, comparing source types based on brilliance and photon energy.

X-ray Techniques and Applications

Explores synchrotrons, x-ray techniques, ptychography, and nondestructive chip architecture study using PyXL.

Bending Magnets and the Magnet Lattice

Explores bending magnets, magnetic field strengths, electric fields, angular frequency, synchrotron radiation, and beamlines.

X-ray Magnetic Imaging Techniques

Covers x-ray magnetic imaging techniques, including XMCD, XRMS, and x-ray optics, for studying magnetic materials and domains.

Introduction to X-rays and X-ray Sources: Part 3

Explores synchrotron radiation, X-ray sources, scientific achievements, and recent highlights in synchrotron science.

Diffraction Basics IV: Bragg's Law and Rotations

Explains Bragg's law, rotations in space, and the Ewald sphere for diffraction.

Introduction to X-rays and X-ray Sources: Part 2

Compares synchrotrons and X-ray free-electron lasers, emphasizing their brightness for scientific experiments.

Generations and properties of synchrotron light part2

Delves into the impact of special relativity on synchrotron light generation and properties.

Beamlines: Secondary Optics

Explores advanced techniques in secondary optics for synchrotrons and x-ray lasers.

Beamlines: Elements of front ends and optics

Covers the essential components of beamlines in synchrotrons and x-ray lasers.