International Tables for Crystallography (2012). Vol. F. ch. 6.1, pp. 159-167
https://doi.org/10.1107/97809553602060000818 |
Chapter 6.1. X-ray sources
Contents
- 6.1. X-ray sources (pp. 159-167) | html | pdf | chapter contents |
- 6.1.1. Overview (p. 159) | html | pdf |
- 6.1.2. Generation of X-rays (pp. 159-162) | html | pdf |
- 6.1.3. Properties of the X-ray beam (pp. 162-164) | html | pdf |
- 6.1.4. Beam conditioning (pp. 164-166) | html | pdf |
- References | html | pdf |
- Figures
- Fig. 6.1.2.1. Section through a sealed X-ray tube (p. 159) | html | pdf |
- Fig. 6.1.2.2. Synchrotron radiation emitted by a relativistic electron travelling in a curved trajectory (p. 160) | html | pdf |
- Fig. 6.1.2.3. Comparison of the spectra from the storage ring SPEAR (p. 161) | html | pdf |
- Fig. 6.1.2.4. Main components of a dedicated electron storage-ring synchrotron-radiation source (p. 161) | html | pdf |
- Fig. 6.1.2.5. Electron trajectory within a multipole wiggler or undulator (p. 161) | html | pdf |
- Fig. 6.1.2.6. Spectral distribution and critical wavelengths for (a) a dipole magnet, (b) a wavelength shifter and (c) a multipole wiggler at the ESRF (p. 162) | html | pdf |
- Fig. 6.1.4.1. Production of a point focus by successive reflections at two orthogonal curved mirrors (p. 164) | html | pdf |
- Fig. 6.1.4.2. The `catamegonic' arrangement of Montel (1957), in which two confocal mirrors with orthogonal curvatures lie side-by-side (p. 164) | html | pdf |
- Fig. 6.1.4.3. Mirror bender (after Franks, 1955) (p. 164) | html | pdf |
- Fig. 6.1.4.4. Triangular mirror bender as described by Lemonnier et al (p. 164) | html | pdf |
- Fig. 6.1.4.5. Mirror holder with machined slots for two orthogonal pairs of curved mirrors (p. 165) | html | pdf |
- Fig. 6.1.4.6. Ellipsoidal mirror for use with a microfocus X-ray tube, where x1 is ∼15 mm (p. 165) | html | pdf |
- Fig. 6.1.4.7. A polycapillary collimator (after Bly & Gibson, 1996) (p. 165) | html | pdf |
- Tables