English

Geometric reconstruction methods for electron tomography

Mathematical Physics 2013-02-07 v4 Materials Science math.MP

Abstract

Electron tomography is becoming an increasingly important tool in materials science for studying the three-dimensional morphologies and chemical compositions of nanostructures. The image quality obtained by many current algorithms is seriously affected by the problems of missing wedge artefacts and nonlinear projection intensities due to diffraction effects. The former refers to the fact that data cannot be acquired over the full 180180^\circ tilt range; the latter implies that for some orientations, crystalline structures can show strong contrast changes. To overcome these problems we introduce and discuss several algorithms from the mathematical fields of geometric and discrete tomography. The algorithms incorporate geometric prior knowledge (mainly convexity and homogeneity), which also in principle considerably reduces the number of tilt angles required. Results are discussed for the reconstruction of an InAs nanowire.

Keywords

Cite

@article{arxiv.1205.5738,
  title  = {Geometric reconstruction methods for electron tomography},
  author = {Andreas Alpers and Richard J. Gardner and Stefan König and Robert S. Pennington and Chris B. Boothroyd and Lothar Houben and Rafal E. Dunin-Borkowski and Kees Joost Batenburg},
  journal= {arXiv preprint arXiv:1205.5738},
  year   = {2013}
}
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