International Tables for Crystallography (2019). Vol. H, ch. 7.4, pp. 759-766
https://doi.org/10.1107/97809553602060000978

Chapter 7.4. Powder diffraction in art and archaeology

Contents

  • 7.4. Powder diffraction in art and archaeology  (pp. 759-766) | html | pdf | chapter contents |
    • 7.4.1. Introduction  (p. 759) | html | pdf |
    • 7.4.2. The information provided by diffraction  (p. 759) | html | pdf |
    • 7.4.3. Phase identification and quantification  (pp. 760-761) | html | pdf |
    • 7.4.4. Crystal structure analysis  (pp. 761-762) | html | pdf |
    • 7.4.5. Texture analysis  (p. 762) | html | pdf |
    • 7.4.6. Microstructural analysis  (pp. 762-763) | html | pdf |
    • 7.4.7. Present trends  (pp. 763-764) | html | pdf |
    • References | html | pdf |
    • Figures
      • Fig. 7.4.1. Rates of change in time for cultural-heritage objects and materials  (p. 759) | html | pdf |
      • Fig. 7.4.2. Different levels and scale of investigation of cultural-heritage materials  (p. 759) | html | pdf |
      • Fig. 7.4.3. The main information on cultural-heritage materials provided by diffraction  (p. 760) | html | pdf |
      • Fig. 7.4.4. A neutron powder diffraction profile (a) of ancient Egyptian cosmetics contained inside a sealed vessel (b)  (p. 761) | html | pdf |
      • Fig. 7.4.5. Synchrotron-based techniques have been used to evaluate corrosion-potential measurements as monitoring method for copper-based objects recovered from marine environments (from Adriaens & Dowsett, 2010)  (p. 761) | html | pdf |
      • Fig. 7.4.6. The crystal structure analysis of Maya blue (palygorskite) and Catalan blue pigments (aerinite) proved to be challenging tasks, both achieved through powder-diffraction analysis  (p. 762) | html | pdf |
      • Fig. 7.4.7. Recalculated and inverse pole figures for the Remedello copper axe from Tomb 102 (Artioli, 2007)  (p. 763) | html | pdf |
      • Fig. 7.4.8. Detailed microstructural analysis of high-resolution synchrotron powder data of galena as the main ingredient in ancient Egyptian kohl (Ungar et al  (p. 763) | html | pdf |
      • Fig. 7.4.9. Schematic diagram showing the potential of simultaneous two-dimensional micro-mapping using synchrotron radiation to excite multiple signals  (p. 764) | html | pdf |
    • Tables
      • Table 7.4.1. Mean penetration depth of different types of electromagnetic radiation or particle beams into common materials.  (p. 760) | html | pdf |