Advanced Tomographic Methods in Materials Research and Engineering

• Overview of tomographic methods based on three different types of radiation in one book.
• Easy comparison of methods and a unified treatment.
• Quick access to most recent developments in this rapidly developing area.
• Many applications given.
• CDROM includes examples and demonstration versions of software to treat data and to visualise it.

Readership: Postgraduate students and researchers in applied physics, materials science, geophysics, engineering, medicine, and biology.

Edited by John Banhart, Department of Materials Science, Hahn-Meitner-Institute, Berlin

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