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Scanning electron microscopy and x-ray microanalysis / Joseph I. Goldstein ... [et al.].

By: Contributor(s): Material type: TextTextLanguage: English Publication details: New York : Kluwer Academic/Plenum Publishers, c2003.Edition: 3rd edDescription: xix, 689 p. : ill. (some col.) ; 26 cm. +; 1 CD-ROM (4 3/4 in.)ISBN:
  • 0306472929
  • 9780306472923
Subject(s): DDC classification:
  • 502.825 21 GOL
Online resources:
Contents:
The SEM and Its Modes of Operation -- Electron Beam-Specimen Interactions -- Image Formation and Interpretation -- Special Topics in Scanning Electron Microscopy -- Generation of X-Rays in the SEM Specimen -- X-Ray Spectral Measurement: EDS and WDS -- 8. Qualitative X-Ray Analysis --
Summary: In the decade since the publication of the second edition of Scanning Electron Microscopy and X-Ray Microanalysis, there has been a great expansion in the capabilities of the basic scanning electron microscope (SEM) and the x-ray spectrometers. The emergence of the variab- pressure/environmental SEM has enabled the observation of samples c- taining water or other liquids or vapor and has allowed for an entirely new class of dynamic experiments, that of direct observation of che- cal reactions in situ. Critical advances in electron detector technology and computer-aided analysis have enabled structural (crystallographic) analysis of specimens at the micrometer scale through electron backscatter diffr- tion (EBSD). Low-voltage operation below 5 kV has improved x-ray spatial resolution by more than an order of magnitude and provided an effective route to minimizing sample charging. High-resolution imaging has cont- ued to develop with a more thorough understanding of how secondary el- trons are generated. The?eld emission gun SEM, with its high brightness, advanced electron optics, which minimizes lens aberrations to yield an - fective nanometer-scale beam, and "through-the-lens" detector to enhance the measurement of primary-beam-excited secondary electrons, has made high-resolution imaging the rule rather than the exception. Methods of x-ray analysis have evolved allowing for better measurement of specimens with complex morphology: multiple thin layers of different compositions, and rough specimens and particles. Digital mapping has transformed classic x-ray area scanning, a purely qualitative technique, into fully quantitative compositional mapping.
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Item type Current library Collection Call number Status Date due Barcode
General Books General Books CUTN Central Library Sciences Non-fiction 502.825 GOL (Browse shelf(Opens below)) Available 40128

The SEM and Its Modes of Operation -- Electron Beam-Specimen Interactions -- Image Formation and Interpretation -- Special Topics in Scanning Electron Microscopy -- Generation of X-Rays in the SEM Specimen -- X-Ray Spectral Measurement: EDS and WDS -- 8. Qualitative X-Ray Analysis --

In the decade since the publication of the second edition of Scanning Electron Microscopy and X-Ray Microanalysis, there has been a great expansion in the capabilities of the basic scanning electron microscope (SEM) and the x-ray spectrometers. The emergence of the variab- pressure/environmental SEM has enabled the observation of samples c- taining water or other liquids or vapor and has allowed for an entirely new class of dynamic experiments, that of direct observation of che- cal reactions in situ. Critical advances in electron detector technology and computer-aided analysis have enabled structural (crystallographic) analysis of specimens at the micrometer scale through electron backscatter diffr- tion (EBSD). Low-voltage operation below 5 kV has improved x-ray spatial resolution by more than an order of magnitude and provided an effective route to minimizing sample charging. High-resolution imaging has cont- ued to develop with a more thorough understanding of how secondary el- trons are generated. The?eld emission gun SEM, with its high brightness, advanced electron optics, which minimizes lens aberrations to yield an - fective nanometer-scale beam, and "through-the-lens" detector to enhance the measurement of primary-beam-excited secondary electrons, has made high-resolution imaging the rule rather than the exception. Methods of x-ray analysis have evolved allowing for better measurement of specimens with complex morphology: multiple thin layers of different compositions, and rough specimens and particles. Digital mapping has transformed classic x-ray area scanning, a purely qualitative technique, into fully quantitative compositional mapping.

Includes bibliographical references and index.

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