The X-Ray Standing Wave Technique : Principles and Applications.

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The X-ray standing wave (XSW) technique is an X-ray interferometric method combining diffraction with a multitude of spectroscopic techniques. It is extremely powerful for obtaining information about virtually all properties of surfaces and interfaces on the atomic scale. However, as with any other...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Zegenhagen, Jorg
Otros Autores: Kazimirov, Alexander
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Singapore : World Scientific Publishing Company, 2013.
Colección:World Scientific series on synchrotron radiation techniques and applications.
Temas:
Electromagnetic waves.
Standing waves.
Radiation
Ondes électromagnétiques.
Ondes stationnaires.
electromagnetic radiation.
Electromagnetic waves
Standing waves
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Dedication; Preface; Acronyms; CONTENTS; Part I; 1. X-Ray Standing Waves in a Nutshell Jorg Zegenhagen and Alexander Kazimirov; 1.1 Introduction; 1.2 Historical Background; 1.3 The Basic Principle of the XSW Technique; 1.4 How to Create a Suitable XSW; 1.5 X-Ray Scattering; 1.6 Photo-Excitation and Dipole Approximation; 1.7 Photo-Excitation and Decay Channels: Which Signal to Detect; 1.8 Structural Analysis with XSW: Photo-Absorption, XSW Yield, and Fourier Analysis; 1.9 Simple Structural Analysis in Case of an XSW Excited by Bragg Reflection; 1.10 XSW Yield from the Bulk; 1.11 Preview
  • 2.3 Standing Wave Field in the Reflection (Bragg) Geometry 2.4 Standing Wave Field in the Transmission (Laue) Geometry; 2.5 Applications of X-ray Standing Waves in the Laue Geometry; 2.5.1 Introduction; 2.5.2 Integrated yield; 2.5.3 Angular dependence of the X-ray fluorescence integrated yield; References; 3. X-Ray Standing Wave in Complex Crystal Structures Victor Kohn; 3.1 Introduction; 3.2 Solution for One Crystal Layer; 3.2.1 Local reflection amplitude; 3.2.2 Local transmission amplitude; 3.3 Secondary Radiation Yield; 3.4 Method of the Computer Simulation; 3.4.1 Example: InGaP/GaAs(111)
  • 6. X-Ray Standing Wave at Grazing Incidence and Exit Osami Sakata and Terrence Jach 6.1 Introduction; 6.2 Geometry, Waves, and Dispersion Surface; 6.3 The Standing Wave Field Above a Surface; 6.4 Applications; References; 7. X-Ray Standing Wave in Multilayers Michael J. Bedzyk and Joseph A. Libera; 7.1 Introduction; 7.2 Calculating the X-Ray Fields within a Multilayer Structure; 7.3 Analysis of the XRF Yield; Acknowledgments; References; 8. Kinematical X-ray Standing Waves Martin Tolkiehn and Dmitri V. Novikov; 8.1 Introduction; 8.2 Theory; 8.3 Application of KXSW to Mosaic Cu3Au

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