Transmission electron microscopy a textbook for materials science/ David B. Williams; C. Barry Carter
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TextPublication details: New York: Springer, 2009Edition: 2nd edDescription: lxii, 760 pISBN: 9780387765013Subject(s): Transmission electron microscopy | Materials -- Microscopy | Microscopy, Electron, TransmissionDDC classification: 621.381 | Item type | Current library | Call number | Copy number | Status | Date due | Barcode | Item holds |
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General Books
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Central Library, Sikkim University General Book Section | 621.381 WIL/T (Browse shelf(Opens below)) | c 3. | Available | P08762 |
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| 621.381 LEA/D Digital principles & applications/ | 621.381 WIL/T Transmission electron microscopy a textbook for materials science/ | 621.381 WIL/T Transmission electron microscopy a textbook for materials science/ | 621.381 WIL/T Transmission electron microscopy a textbook for materials science/ | 621.381 WIL/T Transmission electron microscopy a textbook for materials science/ | 621.3810285536 BAN/M Make: getting started with arduino/ | 621.3810285536 BAN/M Make: getting started with arduino/ |
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.
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