The dynamical theory of diffraction has witnessed exciting developments since the advent of synchrotron radiation. This book gives an up-to-date account...
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Résumé
The dynamical theory of diffraction has witnessed exciting developments since the advent of synchrotron radiation. This book gives an up-to-date account of the theory of diffraction and its applications. The first part serves as an introduction to the subject, presenting early developments and the basic results. It is followed by a detailed development of the diffraction and propagation properties of X-rays in perfect crystals and by an extension of the theory to the case of slightly and highly deformed crystals. The last part gives three applications of the theory: X-ray optics for synchrotron radiation, locations of atoms at surfaces, and X-ray diffraction topography. The book is richly illustrated and contains a wide range of references to the literature. It will be a useful reference work for graduate students, lecturers, and researchers.
Sommaire
HISTORICAL AND BASIC RESULTS
Historical development
Properties of the electromagnetic field - propagation and scattering
Geometrical theory of X-ray diffraction
Elementary dynamical theory
ADVANCED DYNAMICAL THEORY
Properties of wavefields
Intensities of plane waves in the transmission geometry
Intensities of plane waves in the reflection geometry
Dynamical diffraction in highly asymmetric coplanar and non-coplanar geometries
n-beam dynamical diffraction
Spherical-wave dynamical theory: I, Kato's theory
Spherical-wave dynamical theory: II, Takagi's theory
Ray tracing in perfect crystals
EXTENSION OF THE DYNAMICAL THEORY TO DEFORMED CRYSTALS
Ray tracing in slightly deformed crystals
Propagation of X-rays in highly deformed crystals
APPLICATIONS
X-ray optics
Location of atoms at surfaces and interfaces using X-ray standing waves