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Index
Cover
Frontmatter
1. Accelerator Physics
Synchrotron Radiation Physics
Ultrashort Pulses from Synchrotron Radiation Sources
Accelerator-Based THz Radiation Sources
High-Gain Free-Electron Laser Theory, Introduction
Self-Seeded Free-Electron Lasers
Seeding and Harmonic Generation in Free-Electron Lasers
Brilliant Light Sources Driven by Laser-Plasma Accelerators
2. Facilities and Their Design
Storage Ring Design for Synchrotron Radiation Sources
FLASH: The First Superconducting X-Ray Free-Electron Laser
The Linac Coherent Light Source: Concept Development and Design Considerations
The SACLA X-Ray Free-Electron Laser Based on Normal-Conducting C-Band Technology
Energy Recovery Linacs
3. Accelerator Technology
Integrated Multimagnet Systems
Superconducting RF: Enabling Technology for Modern Light Sources
High Brightness Photo Injectors for Brilliant Light Sources
Coupled-Bunch Instabilities in Storage Rings and Feedback Systems
Control Systems for Accelerators: Operational Tools
SRLS Beam Instrumentation and Diagnostics
Free-Electron Laser Beam Instrumentation and Diagnostics
4. Production, Characterization, and~Handling of Soft and Hard X-Ray Beams
Shaping Photon Beams with Undulators and Wigglers
Coherence Properties of Third-Generation Synchrotron Sources and Free-Electron Lasers
Characterization of the Time Structure of Free-Electron Laser Radiation
Split-and-Delay Units for Soft and Hard X-Rays
Focusing Mirror for Coherent Hard X-Rays
Perfect Crystal Optics
5. X-Ray Detectors
Hybrid Pixel Photon Counting X-Ray Detectors for Synchrotron Radiation
Integrating Hybrid Area Detectors for Storage Ring and Free-Electron Laser Applications
High Speed Imaging and Spectroscopy with Low Energy X-Rays
6. Imaging and Nonlinear X-Ray Optics
X-Ray Holography
Imaging of Objects by Coherent Diffraction of X-Ray Free-Electron Laser Pulses
Quantum and Nonlinear Optics with Hard X-Rays
7. Investigations of Atoms, Molecules, and Clusters
Interaction of Intense X-Ray Beams with Atoms
Molecular Soft X-Ray Emission Spectroscopy
Molecular Physics and Gas-Phase Chemistry with Free-Electron Lasers
Clusters and Nanocrystals
8. Applications in Biology
Putting Molecules in the Picture: Using Correlated Light Microscopy and Soft X-Ray Tomography to Study Cells
Synchrotron Small-Angle X-Ray Scattering on Biological Macromolecules in Solution
Structural Biology Applications of Synchrotron Radiation and X-Ray Free-Electron Lasers
9. Applications in Materials and Condensed Matters
Angle-Resolved Photoemission
Application of Micro- and Nanobeams for Materials Science
The X-Ray View of Ultrafast Magnetism
High-Energy X-Ray Scattering and Imaging
Synchrotron X-Ray Scattering from Liquid Surfaces and Interfaces
Structural Dynamics of Materials Probed by X-Ray Photon Correlation Spectroscopy
High-Resolution Inelastic X-Ray Scattering I: Context, Spectrometers, Samples, and Superconductors
High-Resolution Inelastic X-Ray Scattering II: Scattering Theory, Harmonic Phonons, and Calculations
Nuclear Resonance
High Resolution Resonant Inelastic X-Ray Scattering from Solids in the Soft Range
Backmatter
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