A Textbook for Materials Science
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Köp båda 2 för 1516 krFrom the reviews of the second edition: This book is intended to be used as a textbook for material science students studying the theory, operation, and application of the TEM. It is truly a book so thoughtfully written that it will provide a solid foundation for those studying material science. It is richly illustrated with full-color figures and illustrations throughout the text. There are an abundant number of references at the end of each chapter for further study . This is an outstanding book . (IEEE Electrical Insulation Magazine, Vol. 26 (4), July/August, 2010) D.B. Williams and C.B. Carter have now prepared a new edition, splendidly produced by Springer with colour throughout. This textbook is magnificent, written in a very readable style, immensely knowledgeable, drawing attention to difficulties and occasionally to unsolved problems. Any microscopist who has mastered the book relevant to his projects will be well armed for battle. Buy this book! (P. W. Hawkes, Ultramicroscopy, Vol. 110, 2010)
Basics.- The Transmission Electron Microscope.- Scattering and Diffraction.- Elastic Scattering.- Inelastic Scattering and Beam Damage.- Electron Sources.- Lenses, Apertures, and Resolution.- How to See Electrons.- Pumps and Holders.- The Instrument.- Specimen Preparation.- Diffraction.- Diffraction in TEM.- Thinking in Reciprocal Space.- Diffracted Beams.- Bloch Waves.- Dispersion Surfaces.- Diffraction from Crystals.- Diffraction from Small Volumes.- Obtaining and Indexing Parallel-Beam Diffraction Patterns.- Kikuchi Diffraction.- Obtaining CBED Patterns.- Using Convergent-Beam Techniques.- Imaging.- Amplitude Contrast.- Phase-Contrast Images.- Thickness and Bending Effects.- Planar Defects.- Imaging Strain Fields.- Weak-Beam Dark-Field Microscopy.- High-Resolution TEM.- Other Imaging Techniques.- Image Simulation.- Processing and Quantifying Images.- Spectrometry.- X-ray Spectrometry.- X-ray Spectra and Images.- Qualitative X-ray Analysis and Imaging.- Quantitative X-ray Analysis.- Spatial Resolution and Minimum Detection.- Electron Energy-Loss Spectrometers and Filters.- Low-Loss and No-Loss Spectra and Images.- High Energy-Loss Spectra and Images.- Fine Structure and Finer Details.