2016
DOI: 10.3390/cryst6090104
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Statistical Approach to Diffraction of Periodic and Non-Periodic Crystals—Review

Abstract: Abstract:In this paper, we show the fundamentals of statistical method of structure analysis. Basic concept of a method is the average unit cell, which is a probability distribution of atomic positions with respect to some reference lattices. The distribution carries complete structural information required for structure determination via diffraction experiment regardless of the inner symmetry of diffracting medium. The shape of envelope function that connects all diffraction maxima can be derived as the Fouri… Show more

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Cited by 12 publications
(12 citation statements)
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“…To our knowledge, there are at least two possible reasons for this phenomenon, which are namely (i) incorrect phasonic correction function and/or (ii) multiple scattering effect occurring in the diffraction experiment. Discussion on the influence of possible scenario (i) is explained in detail in references [5,6,40]. The standard exponential phasonic D-W factor with k perp vector in the exponent (see formula (3)) appears to artificially lower the intensities of reflections with large-k perp component, which are small by definition for quasicrystals.…”
Section: Refinement Results and Structurementioning
confidence: 99%
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“…To our knowledge, there are at least two possible reasons for this phenomenon, which are namely (i) incorrect phasonic correction function and/or (ii) multiple scattering effect occurring in the diffraction experiment. Discussion on the influence of possible scenario (i) is explained in detail in references [5,6,40]. The standard exponential phasonic D-W factor with k perp vector in the exponent (see formula (3)) appears to artificially lower the intensities of reflections with large-k perp component, which are small by definition for quasicrystals.…”
Section: Refinement Results and Structurementioning
confidence: 99%
“…The diffraction pattern considered within the statistical approach is strongly related to the probability distribution function of atomic positions in the AUC [3][4][5][6]. For periodic crystals, the distributions are discrete and can be described as a sum of Dirac-delta functions.…”
Section: Phonons In Quasicrystals: a Statistical Approachmentioning
confidence: 99%
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“…On the other hand, the recourse to a higher dimensional space-based crystallography allows one to recover the very possibility of describing the order present in aperiodic crystals in terms of a periodic distribution of hyperatoms located in a hyperspace which embeds the three-dimensional physical space. In this context, the contribution by Radoslaw Strzalka, Irineusz Buganski, and Janusz Wolny introduces an alternative approach which is based on the average unit cell concept: a probability distribution of atomic positions with respect to a suitable reference lattice in physical space [18]. This distribution carries the complete structural information required for structure determination via diffraction experiments regardless of the inner symmetry of the diffracting medium.…”
Section: Quasiperiodic Crystals Structurementioning
confidence: 99%