J. Appl. Cryst. (2002). 35, 606-614 [ doi:10.1107/S0021889802011470 ]
Abstract: A high-resolution X-ray diffractometer devoted to the study of imperfect materials (mainly oxides and ceramics) is presented. It is based on a rotating anode generator, a four-bounce monochromator, a five-movement sample holder and a curved position-sensitive detector (PSD). This setup allows rapid acquisition of a reciprocal-space map (in less than 10 h) even for very poorly diffracting materials. The two-dimensional instrumental profile is calculated taking into account each optical element in the beam path. The one-dimensional instrumental profiles corresponding to widely used scans (![[omega]](/logos/entities/omega_rmgif.gif)
scan, ![[theta]](/logos/entities/thetas_rmgif.gif)
-2 scan, rocking curve and powder scan) are also calculated. In the three former cases, the setup exhibits an excellent angular resolution (0.003°), whereas in the latter case the resolution is lowered by one order of magnitude at the benefit of a strong increase in the collected intensity. The possibilities of this diffractometer are illustrated with three examples: an epitaxic layer, a microstructured single crystal and a powder.
Keywords: high-resolution X-ray diffractometer; imperfect materials; defect structure.
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