International Tables for Crystallography (2006). Vol. C, ch. 2.7, pp. 113-123
doi: 10.1107/97809553602060000582

Chapter 2.7. Topography

Contents

  • 2.7. Topography  (pp. 113-123) | html | pdf | chapter contents |
    • 2.7.1. Principles  (pp. 113-114) | html | pdf |
    • 2.7.2. Single-crystal techniques  (pp. 114-117) | html | pdf |
      • 2.7.2.1. Reflection topographs  (pp. 114-115) | html | pdf |
      • 2.7.2.2. Transmission topographs  (pp. 115-117) | html | pdf |
    • 2.7.3. Double-crystal topography  (pp. 117-119) | html | pdf |
    • 2.7.4. Developments with synchrotron radiation  (pp. 119-121) | html | pdf |
      • 2.7.4.1. White-radiation topography  (pp. 119-120) | html | pdf |
      • 2.7.4.2. Incident-beam monochromatization  (pp. 120-121) | html | pdf |
    • 2.7.5. Some special techniques  (pp. 121-123) | html | pdf |
      • 2.7.5.1. Moiré topography  (pp. 121-122) | html | pdf |
      • 2.7.5.2. Real-time viewing of topograph images  (pp. 122-123) | html | pdf |
    • References | html | pdf |
    • Figures
      • Fig. 2.7.1.1. Surface reflection topography with a point source of diverging continuous radiation  (p. 113) | html | pdf |
      • Fig. 2.7.1.2. Transmission topography with a point source of diverging continuous radiation  (p. 113) | html | pdf |
      • Fig. 2.7.1.3. Differentiation between orientation contrast and diffraction contrast in types of topograph images, ( b )–( e ), of a crystal surface ( a )  (p. 114) | html | pdf |
      • Fig. 2.7.2.1. Berg–Barrett arrangement for surface-reflection topographs  (p. 114) | html | pdf |
      • Fig. 2.7.2.2. Arrangements for section topographs and projection topographs  (p. 115) | html | pdf |
      • Fig. 2.7.2.3. Arrangements for limited projection topographs and direct-beam topographs  (p. 116) | html | pdf |
      • Fig. 2.7.2.4. Topographic techniques using anomalous transmission  (p. 117) | html | pdf |
      • Fig. 2.7.3.1. Double-crystal + + setting  (p. 117) | html | pdf |
      • Fig. 2.7.3.2. Du Mond diagram for + + setting in Fig. 2.7.3.1  (p. 117) | html | pdf |
      • Fig. 2.7.3.3. Double-crystal topographic arrangement, + − setting  (p. 118) | html | pdf |
      • Fig. 2.7.3.4. Du Mond diagrams for + − setting in Fig. 2.7.3.3  (p. 118) | html | pdf |
      • Fig. 2.7.3.5. Transmission double-crystal topography in + − setting with spatial limitation of beam leaving reference crystal  (p. 119) | html | pdf |
      • Fig. 2.7.4.1. Monolithic multiply reflecting monochromator for plane-wave topography  (p. 121) | html | pdf |
      • Fig. 2.7.5.1. Scanning arrangement for moiré topography with the Bonse–Hart interferometer  (p. 122) | html | pdf |
      • Fig. 2.7.5.2. Superposition of crystals (1) and (2) for production of moiré topographs  (p. 122) | html | pdf |
    • Tables
      • Table 2.7.4.1. Monolithic monochromator for plane-wave synchrotron-radiation topography  (p. 121) | html | pdf |