Mössbauer studies of surface layers
著者
書誌事項
Mössbauer studies of surface layers
(Studies in physical and theoretical chemistry, 81)
Elsevier, 1993
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内容説明・目次
内容説明
Moessbauer spectroscopy has evolved as one of the few methods available for investigation of solids differing in depth by several orders of magnitude. This recent development has made the problems of surface investigation and the study of separate layers amenable to investigation. The parameters of the hyperfine interaction derived from the Moessbauer spectra provide valuable information on the chemical bond character and on magnetic properties of surface layers as well as on the change of the properties with the depth from the outermost surface layer. It is possible to carry out quantitative phase analysis and to use the technique to study different transformations in the solid which result from external effects under a wide range of temperatures and pressures.
This book is one of the first attempts at a consistent presentation of theoretical and practical problems of the use of Moessbauer spectroscopy to study solid surfaces, its applications, and development. The applications include: surface studies with hyperfine probes in the following fields: oxidation and corrosion of metals and alloys: passivating and protective coatings: physics of metals: annealing and quenching, mechanical and chemical treatment, ion implantation and laser treatment; texture of near-surface layers.
Moessbauer spectroscopy is one of the best methods for in situ characterization of solid/solid and solid/solution interfaces. It lends itself to in situ studies of surfaces under various coatings and processes, surface magnetism and the effect of the gas phase on the properties of the surface layers and the structure and magnetic properties of epitaxially grown monolayers on the surface of oriented single crystals.
目次
Preface. 1. Physical Concepts of the Method. General Aspects of Moessbauer Spectroscopy. Hyperfine Interactions and Line Positions in Moessbauer Spectra. Relative Intensities of Spectral Lines. Experimental. References. 2. Moessbauer Spectroscopy Based on Detection of Electromagnetic Radiation. Radiation Transmission through Matter. Low-Energy -Quanta Scattering. Resonance Fluorescence and Interference Effects. Angular Dependencies of the Scattered -Radiation. Moessbauer -Quanta Scattering as a Method of Surface Study. Scattering Experiments with Detection of Characteristic X-rays. A Theory of Backscattering Moessbauer Spectroscopy (X-Rays Detection). Backscattering Moessbauer Spectroscopy by the Detection of X- and -Radiation. Practical Aspects. References. 3. Moessbauer Spectroscopy Based on the Detection of Electrons. The Interaction of Electrons with Matter Following Moessbauer Scattering. Conversion Electron Moessbauer Spectroscopy Theory Based on the Exponential Attenuation of the Electron Beam. Theory of CEMS Based on Elementary Electron Interactions. Depth Selective Conversion Electron Moessbauer Spectroscopy. -Spectra and Weight Functions for DCEMS. Structure Determination of Near Surface Layers by DCEMS. Proportional Counters as Electron Detectors in CEMS. Depth Selection by Means of Proportional Counters. Analysis of Thin Layers under Total External Reflection of Moessbauer Radiation. Other Methods of Detection in CEMS. Channeltrons and the Detection of Very-Low Energy Electrons. References. 4. Moessbauer Backscattering Spectra. Weight Functions and Re-scattering. Evaluation of the Intensity of Scattered -Radiation. Evaluation of the Intensity of X-Rays and Electrons. Line Shapes and Intensity Ratios. The Quality of a Moessbauer Spectrum. Quantitative Information from Moessbauer Spectra. Layer-by-Layer Analysis. References. 5. Practical Aspects of Surface Layer Analysis. Corrosion Studies of Metals and Alloys. Applications in Metal Physics. Ion Implantation and Laser Treatment of Metals. Spin Texture Studies of Surface Layers. Some Other Applications. References. Variables and Abbreviations (alphabetic). Index.
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