An Introduction to Synchrotron Radiation 2nd Edition by Philip Willmott – Ebook PDF Instant Download/Delivery: 1119280397, 9781119280392
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ISBN 10: 1119280397
ISBN 13: 9781119280392
Author: Philip Willmott
The updated guide to the fundamental concepts, techniques and applications of synchrotron radiation and its applications in this rapidly developing field
Synchrotron light is recognized as an invaluable research tool by a broad spectrum of scientists, ranging from physicists to biologists and archaeologists. The comprehensively revised second edition of An Introduction to Synchrotron Radiation offers a guide to the basic concepts of the generation and manipulation of synchrotron light, its interaction with matter and the application of synchrotron light in x-ray scattering, spectroscopy, and imaging.
The author, a noted expert in the field, reviews the fundamentals of important experimental methods, and explores the most recent technological advances in both the latest generation of x-ray sources and x-ray instrumentation. Designed to be an accessible resource, the book contains full-colour illustrations of the underlying physics and experimental applications, as well as the most commonly-used synchrotron techniques. In particular, the updated second edition now includes:
- In-depth descriptions of the latest x-ray-source technologies, notably diffraction-limited storage rings and x-ray free-electron lasers
- The latest advances in instrumentation, x-ray optics, and experimental methods in synchrotron radiation
- The most recent developments in macromolecular crystallography, time-resolved studies, and imaging techniques
- A comprehensive set of problems for each chapter, plus their ideal solutions in the appendices.
Written for undergraduate and postgraduate students from all areas of the natural and physical sciences, An Introduction to Synchrotron Radiation, Second Edition is an invaluable up-to-date reference source in this highly multidisciplinary field.
An Introduction to Synchrotron Radiation 2nd Table of contents:
1 Introduction
1.1 A Potted History of X‐rays
1.2 Synchrotron Sources over the Last Seventy Years
References
2 The Interaction of X‐rays with Matter
2.1 Introduction
2.2 The Electromagnetic Spectrum
2.3 Compton Scattering
2.4 Thomson Scattering
2.5 Atomic Scattering Factors
2.6 The Refractive Index, Reflection, and Photoabsorption
2.7 X‐ray Fluorescence and Auger Emission
2.8 Concluding Remarks
Problems
References
3 Synchrotron Physics
3.1 Introduction
3.2 Overview
3.3 Production of Light by Acceleration of Charged Particles
3.4 Forces Acting on a Charged Particle by Electromagnetic Radiation
3.5 Radiation from Relativistic Electrons
3.6 Radio‐frequency Power Supply and Bunching
3.7 Photon‐beam Properties
3.8 The Magnet Lattice
3.9 Insertion Devices
3.10 Concluding Remarks
Problems
References
4 Free‐electron Lasers
4.1 Introduction
4.2 XFEL Architecture
4.3 The SASE Process
4.4 Properties of XFEL Beams
4.5 Seeding
4.6 Radiation Damage and Heat Loads
4.7 XFELs and THz Radiation
4.8 Concluding Remarks
Problems
References
5 Beamlines
5.1 Introduction
5.2 Front End
5.3 Basics of X‐ray Optics
5.4 Primary Optics
5.5 Microfocus and Nanofocus Optics
5.6 Beam‐intensity Monitors
5.7 Detectors
5.8 Time‐resolved Experiments
5.9 Concluding Remarks
Problems
References
6 Scattering Techniques
6.1 Introduction
6.2 Diffraction at Synchrotron Sources
6.3 Description of Crystals
6.4 Basic Tenets of X‐ray Diffraction
6.5 Diffraction and the Convolution Theorem
6.6 The Phase Problem and Anomalous Diffraction
6.7 Types of Crystalline Samples
6.8 Single Crystal Diffraction
6.9 Textured Samples
6.10 Powder Diffraction
6.11 Macromolecular Crystallography
6.12 Surface Diffraction
6.13 Resonant X‐ray Scattering
6.14 X‐ray Reflectometry
6.15 Small‐angle X‐ray Scattering
6.16 Concluding Remarks
Problems
References
7 Spectroscopic Techniques
7.1 Introduction
7.2 X‐ray Absorption Processes
7.3 Photoelectron Energies, Wavelengths, and Absorption Regions
7.4 X‐ray Absorption Near‐edge Structure, XANES
7.5 Extended X‐ray Absorption Fine Structure, EXAFS
7.6 Fluorescence Spectroscopies
7.7 Scanning Transmission X‐ray Microscopy, STXM
7.8 Photoemission Electron Microscopy, PEEM
7.9 Photoemission Spectroscopy
7.10 Concluding Remarks
Problems
References
8 Imaging Techniques
8.1 Introduction
8.2 X‐ray Computed Microtomography
8.3 Full‐field Microscopy
8.4 Lensless Imaging
8.5 Concluding Remarks
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