Punegov VIKolosov SIPavlov KM2019-02-202019-02-2020161600-57671600-5767http://hdl.handle.net/10092/16509© International Union of Crystallography, 2016. The new dynamical diffraction approach to X-ray diffraction on lateral crystalline structures has been developed to investigate the angular and spatial distribution of wavefields in the case of the Bragg-Laue geometry in non-perfect lateral structures. This approach allows one to calculate reciprocal space maps for deformed lateral crystals having rectangular cross sections for both the transmitted and reflected wavefields. Numerical modelling is performed for crystals with different lateral sizes, thicknesses and deformations. The approach can be used in coherent diffraction imaging to simulate Fraunhofer diffraction patterns produced by relatively large deformed crystals.The two-dimensional dynamical theory of X-ray Bragg-Laue diffraction has been developed for deformed lateral crystalline structures having a rectangular cross section. This approach allows one to calculate rocking curves as well as reciprocal space maps for both the transmitted and reflected wavefields. The approach can be used in coherent diffraction imaging to simulate far-field diffraction patterns produced by relatively large deformed crystals.enX-ray dynamical diffraction theorylateral structureslateral crystalsreciprocal space mapsBragg-Laue geometrycoherent diffraction imagingdeformationsJournal Article2019-01-23Fields of Research::34 - Chemical sciences::3401 - Analytical chemistry::340101 - Analytical spectrometryFields of Research::51 - Physical sciences::5103 - Classical physics::510302 - Classical and physical opticshttps://doi.org/10.1107/S1600576716008396