Tomography provides three-dimensional images of materials or engineering components and an unprecedented insight into their internal structure. This book, written for applied physicists, materials scientists and engineers, discusses recent developments in the field, such as the extension of tomographic methods to materials research and engineering.

1. Introduction 2. Some Mathematical Concepts for Tomographic Reconstruction 3. Visualisation, Processing and Analysis of Tomographic Data 4. Radiation Sources and Interaction of Radiation with Matter 5. Synchrotron X-ray Absorption Tomography 6. Phase Contrast and Holographic Tomography 7. Tomography using magnifying optics 8. Scanning Tomography 9. Three-dimensional X-ray Diffraction 10. Detectors for Synchrotron Tomography 11. Fundamentals of Electron Tomography 12. Applications of Electron Tomography 13. Neutron Absorption Tomography 14. Neutron Phase Contrast and Polarised Neutron Tomography 15. Neutron Refraction and Small-Angle Scattering Tomography Appendix A: Facilities for Tomography Appendix B: Examples on CDROM