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Powder diffraction in external electric and magnetic fields
Ehrenberg, H., Hinterstein, M., Senyshyn, A. and Fuess, H.  International Tables for Crystallography (2018). Vol. H, ch. 2.8, pp. 174-188 [ doi:10.1107/97809553602060000943 ]
... of a set of modules, each consisting of 1280 50µm-pitch strips, which are wirebonded to the photon-counting readout ... or various Gd2O2S:Tb scintillators. Pixel sizes of 200 × 200µm (Perkin Elmer 1621N ES, Herklotz et al., 2013 ) or 154 × 154µm (Pixium 4700, Daniels & Drakopoulos, 2009 ) together with frame rates ...

Concluding remarks
Ehrenberg, H., Hinterstein, M., Senyshyn, A. and Fuess, H.  International Tables for Crystallography (2018). Vol. H, Section 2.8.3.3.4, p. 186 [ doi:10.1107/97809553602060000943 ]
Concluding remarks 2.8.3.3.4. Concluding remarks Despite some shortcomings, powder diffraction studies as a function of magnetic fields are valuable for the qualitative and sometimes even quantitative interpretation of magnetic materials. Unpolarized neutrons are used in most experiments, but the additional information from polarized neutrons has also been exploited. X-rays do ...
     [more results from section 2.8.3 in volume H]

Sample fluorescence and incoherent neutron scattering
Ehrenberg, H., Hinterstein, M., Senyshyn, A. and Fuess, H.  International Tables for Crystallography (2018). Vol. H, Section 2.8.2.3, p. 177 [ doi:10.1107/97809553602060000943 ]
... experiments. References Mikhailova, D., Schwarz, B., Senyshyn, A., Bell, A. M. T., Skourski, Y., Ehrenberg, H., Tsirlin, A. A., Agrestini, S., Rotter, M., Reichel, P., Chen, J. M., Hu, Z., Li, Z. M., Li, Z. F. & Tjeng, ...
     [more results from section 2.8.2 in volume H]

Introduction
Ehrenberg, H., Hinterstein, M., Senyshyn, A. and Fuess, H.  International Tables for Crystallography (2018). Vol. H, Section 2.8.1, p. 174 [ doi:10.1107/97809553602060000943 ]
Introduction 2.8.1. Introduction The functionality of materials depends strongly on the crystalline structure and structural changes during operation. The term `structure' usually refers to the ideal structure, which specifies the positions of the atoms in a lattice, and thus the distances and angles between them. This idealized model is, however, far ...

Summary
Ehrenberg, H., Hinterstein, M., Senyshyn, A. and Fuess, H.  International Tables for Crystallography (2018). Vol. H, Section 2.8.4, p. 186 [ doi:10.1107/97809553602060000943 ]
... samples. J. Phys. Condens. Matter, 22, 502201.GoogleScholar Jones, J., Hoffman, M., Daniels, J. E. & Studer, A. J. (2006). Direct measurement ... Phys. Condens. Matter, 20, 434213.GoogleScholar Schönau, K. A., Knapp, M., Kungl, H., Hoffmann, M. J. & Fuess, H. (2007). In situ synchrotron diffraction ...

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