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On the application of a minimum residual method to the structure determination of superstructures*

Published/Copyright: July 28, 2010
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Zeitschrift für Kristallographie - Crystalline Materials
From the journal Zeitschrift für Kristallographie - Crystalline Materials Volume 137 Issue 5-6

Abstract

A minimum residual method (the method of key shifts) is proposed for the structure determination of superstructures. The method is based on the fact that there are in most cases only a few important changes (key shifts) of atomic parameters in the extension from a substructure to the corresponding superstructure. The method starts from the substructure. We change each atomic parameter of each atom by particular amounts in the plus and minus directions, and calculate the corresponding R values. The key shifts can then be detected from the steepest descents of the R values. Once an approximate superstructure has been found out by this method, i.e. approximately correct phases have been assigned to the reflections, the structure can be refined by ordinary Fourier and least-squares methods. The method has successfully been applied to the structure determination of freieslebenite, PbAgSbS3 and jordanite, Pb28−xAs12S46−x.

Published Online: 2010-7-28
Published in Print: 1973-10-1

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Articles in the same Issue

  1. Vacancy distribution in synthetic spinels of the series Fe304γ-Fe2O3
  2. Structure and growth of an unusual silicon carbide polytype 147R
  3. Die Verfeinerung der Kristallstruktur eines lunaren Pigeonits
  4. Structure refinement of a barium mica
  5. Die Kristallstruktur von Bariumazidmonohydrat Ba(N3)2 · H2O
  6. The crystal structure of monoclinic CaAl2Si2O8: a case of monoclinic structure closely simulating orthorhombic symmetry
  7. On the application of a minimum residual method to the structure determination of superstructures*
  8. Symmetrie von KJO3 und die Struktur der Zimmertemperaturphase
  9. The crystal structure of synthetic CuBi5S8*
  10. Existenznachweis für eine Lösung des Phasenproblems für nichtperiodische Verteilungen*
  11. Hydroxyl orientation in muscovite polymorphs
  12. 14. Diskussionstagung der Arbeitsgemeinschaft Kristallographie der Deutschen Mineralogischen Gesellschaft, der Deutschen Physikalischen Gesellschaft und der Gesellschaft Deutscher Chemiker
  13. Berichtigung
  14. Berichtigung
https://doi.org/10.1524/zkri.1973.137.5-6.399

Articles in the same Issue

  1. Vacancy distribution in synthetic spinels of the series Fe304γ-Fe2O3
  2. Structure and growth of an unusual silicon carbide polytype 147R
  3. Die Verfeinerung der Kristallstruktur eines lunaren Pigeonits
  4. Structure refinement of a barium mica
  5. Die Kristallstruktur von Bariumazidmonohydrat Ba(N3)2 · H2O
  6. The crystal structure of monoclinic CaAl2Si2O8: a case of monoclinic structure closely simulating orthorhombic symmetry
  7. On the application of a minimum residual method to the structure determination of superstructures*
  8. Symmetrie von KJO3 und die Struktur der Zimmertemperaturphase
  9. The crystal structure of synthetic CuBi5S8*
  10. Existenznachweis für eine Lösung des Phasenproblems für nichtperiodische Verteilungen*
  11. Hydroxyl orientation in muscovite polymorphs
  12. 14. Diskussionstagung der Arbeitsgemeinschaft Kristallographie der Deutschen Mineralogischen Gesellschaft, der Deutschen Physikalischen Gesellschaft und der Gesellschaft Deutscher Chemiker
  13. Berichtigung
  14. Berichtigung
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