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Characterization of high Tc materials and devices by electron microscopy / edited by Nigel D. Browning, Stephen J. Pennycook.

Contributor(s): Browning, Nigel D [editor.] | Pennycook, Stephen J [editor.].
Material type: materialTypeLabelBookPublisher: Cambridge : Cambridge University Press, 2000Description: 1 online resource (xii, 391 pages) : digital, PDF file(s).Content type: text Media type: computer Carrier type: online resourceISBN: 9780511534829 (ebook).Other title: Characterization of High Tc Materials & Devices by Electron Microscopy.Subject(s): High temperature superconductors | Electron microscopy -- TechniqueAdditional physical formats: Print version: : No titleDDC classification: 537.6/23/0284 Online resources: Click here to access online
Contents:
High-resolution transmission electron microscopy / S. Horiuchi and L. He -- Holography in the transmission electron microscope / A. Tonomura -- Microanalysis by scanning transmission electron microscopy / L.M. Brown and J. Yuan -- Specimen preparation for transmission electron microscopy / J.G. Wen -- Low-temperature scanning electron microscopy / R.P. Huebener -- Scanning tunneling microscopy / M.E. Hawley -- Identification of new superconducting compounds by electron microscopy / G. Van Tendeloo and T. Krekels -- Valence band electron energy loss spectroscopy (EELS) of oxide superconductors / Y.Y. Wang and V.P. Dravid.
Summary: This is a clear account of the application of electron-based microscopies to the study of high-Tc superconductors. Written by leading experts, this compilation provides a comprehensive review of scanning electron microscopy, transmission electron microscopy and scanning transmission electron microscopy, together with details of each technique and its applications. Introductory chapters cover the basics of high-resolution transmission electron microscopy, including a chapter devoted to specimen preparation techniques, and microanalysis by scanning transmission electron microscopy. Ensuing chapters examine identification of superconducting compounds, imaging of superconducting properties by low-temperature scanning electron microscopy, imaging of vortices by electron holography and electronic structure determination by electron energy loss spectroscopy. The use of scanning tunnelling microscopy for exploring surface morphology, growth processes and the mapping of superconducting carrier distributions is discussed. Final chapters consider applications of electron microscopy to the analysis of grain boundaries, thin films and device structures. Detailed references are included.
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1. High-resolution transmission electron microscopy / S. Horiuchi and L. He -- 2. Holography in the transmission electron microscope / A. Tonomura -- 3. Microanalysis by scanning transmission electron microscopy / L.M. Brown and J. Yuan -- 4. Specimen preparation for transmission electron microscopy / J.G. Wen -- 5. Low-temperature scanning electron microscopy / R.P. Huebener -- 6. Scanning tunneling microscopy / M.E. Hawley -- 7. Identification of new superconducting compounds by electron microscopy / G. Van Tendeloo and T. Krekels -- 8. Valence band electron energy loss spectroscopy (EELS) of oxide superconductors / Y.Y. Wang and V.P. Dravid.

This is a clear account of the application of electron-based microscopies to the study of high-Tc superconductors. Written by leading experts, this compilation provides a comprehensive review of scanning electron microscopy, transmission electron microscopy and scanning transmission electron microscopy, together with details of each technique and its applications. Introductory chapters cover the basics of high-resolution transmission electron microscopy, including a chapter devoted to specimen preparation techniques, and microanalysis by scanning transmission electron microscopy. Ensuing chapters examine identification of superconducting compounds, imaging of superconducting properties by low-temperature scanning electron microscopy, imaging of vortices by electron holography and electronic structure determination by electron energy loss spectroscopy. The use of scanning tunnelling microscopy for exploring surface morphology, growth processes and the mapping of superconducting carrier distributions is discussed. Final chapters consider applications of electron microscopy to the analysis of grain boundaries, thin films and device structures. Detailed references are included.

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