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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 ]
... ideal structure, which specifies the positions of the atoms in a lattice, and thus the distances and angles between them. This ... however, far too simple to describe the full functionality of a material in a device. Many types of defects, such as point defects, ...

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 ]
... 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 ... interact directly with the magnetic moments, but structural changes as a consequence of magnetic phase transitions have been observed in several ... magnetic fields reaching 4T on an X-ray diffractometer with a rotating anode revealed details of lattice parameters and atomic ...
     [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 ]
... 2.8.2.3. Sample fluorescence and incoherent neutron scattering Sample fluorescence is a common problem for laboratory X-ray powder diffractometers, which are neither equipped with an analyser nor use detectors with a narrow energy resolution. In powder diffraction using synchrotron radiation, this ... adjustment of the dynamic range of the detector, or by a combination of both. Like absorption cross sections, the incoherent ...
     [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 ]
... ideal structure, which specifies the positions of the atoms in a lattice, and thus the distances and angles between them. This ... however, far too simple to describe the full functionality of a material in a device. Many types of defects, such as point defects, ...

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 ]
... in situ studies under electric and magnetic fields are in a well advanced state. Laboratory equipment can be used for diverse experiments where changes occur on a timescale that can be followed with an exposure time of ... addition to such diffraction experiments, which provide average information on a macroscopic length scale, complementary experiments like electron microscopy are ...

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